Using pioneering new technologies in Superfoods and nutrition, CFTRI has developed amazing new products which are on show at CFTRI stall at Pragati Maidan:

· Chia and Quinoa based Chocolates and Laddoos;

· Omega-3 enriched ice-cream;

· Multigrain banana bar

· Fruit juice based carbonated drinks.

New Delhi, 24th November, 2016: CSIR-Central Food Technological Research Institute (CFTRI), the premier national institute for food technology is exhibiting a range of new agri-products now grown in India, called Superfoods that bring health and nutrition best practices to everyday eating and living to the common man. The exhibits by CFTRI at the Trade Fair at Pragati Maidan in New Delhi both impress and surprise with the range and scope of their utility and potency.

The Indian population is presently going through a nutrition transition and there is an increase in incidence of diabetes, impaired heart health and obesity while there is still rampant malnutrition in the nation.

Keeping in mind an effective solution needed to address these concerns, CSIR-CFTRI is working on bringing Superfoods to the Indian population. CFTRI works on various facets of food technology, food processing, advanced nutrition, Superfoods and allied sciences. Superfoods are foods which have superior nutrition profiles which upon regular consumption can help improve health and wellness of the consumer.

CFTRI has developed the agro-technology for growing Superfoods viz. Chia and Quinoa in Indian conditions. Chia is the richest source of omega-3 fats from a vegetarian source and Quinoa has excellent protein quality and low glycemic load carbohydrates. Comprehensively, Chia and Quinoa have potential to improve population health and both blend seamlessly into traditional food preparations.

CSIR-CFTRI also infuses the spirit of entrepreneurship in their students. One of the doctoral students after completing her academic program started her own technology provider start-up company, Oleome Biosolutions Pvt Ltd. In a global first, CSIR-CFTRI in collaboration with Oleome, has developed a 100% vegetarian, Omega-3-enriched Ice cream called “Nutriice” using Chia oil.

CSIR-CFTRI is also in the process of the final phase of testing of diacylglycerol (DAG) oil, a unique cooking oil that has “Anti-Obesity” functionalities. One can consume it as part of daily regular diet and while the oil is available as energy but does not get stored as fat in our bodies. The final phase of human clinical trial is presently under progress.

CFTRI has also designed and developed snacks with advanced nutrition designs to support the nutrition needs of growing children. These have been implemented in the aganwadi levels to complement the existing government mid-day meal and will be scaled up soon. The products, such as Nutri Chikki with spirulina, rice beverage mix, high protein rusk, energy food, nutri sprinkle, seasame paste and fortified mango bars have been well received by the children and the anganwadis alike. Multi-grain Banana bar is a new addition to in this product portfolio.

Another exciting area of multidisciplinary research being done at CSIR-CFTRI is on nanotechnology, food technology and nutrition. Nanomaterials are known for their characteristic properties and CSIR-CFTRI is working on the use of nanoparticles for various applications. One of our interesting developments is the design and development of food packaging material with nanoparticles with antimicrobial and antioxidant properties to improve shelf-life of processed foods.

CSIR-CFTRI is also working on “Smart Foods” to answer specific needs of the consumer. These promising and specifically designed innovations are being developed for better sleep, better skin health, improved digestion, better cognitive performance and better stress management. The high science is brought into a simple food product, like a cereal bar which helps one to be more attentive over the day, or a unique dosa mix that helps in working out better at the gym with lower perceived exhaustion and even a special soup to help sleep better at night!

Speaking on the sidelines of the CSIR-CFTRI exhibition at Pragati Maidn, Prof. Ram Rajasekharan, Director, CFTRI said “Our mandate is to find innovative solutions to India agricultural and nutritional challenges. Our aim is to develop products to make Indian agriculture productive, efficient and at a consumer level gradually replace drugs with foods that will promote better health and wellness. We strive to deliver our best in improving food security and nutrition security, also developing a stronger, smarter and healthier India”.

About CSIR-CFTRI:

CSIR − Central Food Technological Research Institute (CFTRI), Mysore (A constituent laboratory of Council of Scientific and Industrial Research, New Delhi) came into existence during 1950 with the great vision of its founders, and a network of inspiring as well as dedicated scientists who had a fascination to pursue in-depth research and development in the areas of food science and technology.

CSIR-CFTRI is today a large and diversified laboratory headed by Prof. Ram Rajasekharan, Director, CSIR-CFTRI. Presently the institute has a great team of scientists, technologists, engineers, technicians, skilled workers, and support staff. There are seventeen research and development departments, including laboratories focusing on lipid science, molecular nutrition, food engineering, food biotechnology, microbiology, biochemistry, food safety etc.

The institute has designed over 300 products, processes, and equipment types. It holds several patents and has a large number of high impact peer reviewed journal articles to its credit. India is the world's second largest food grain, fruit and vegetable producer, and the institute is engaged in research and development in the production and handling of grains, pulses, oilseeds, spices, fruits, vegetables, meat, fish, and poultry.

The institute develops technologies to increase efficiency and reduce postharvest losses, add convenience, increase export, find new sources of food products, integrate human resources in food industries and develops solutions to improve the health and wellness of the population.

CFTRI has a vast portfolio of over 300 products, processes and equipment designs, and close to 4000 licensees have availed themselves of these technologies for commercial exploitation. The achievements have been of considerable industrial value, social importance and national relevance, and coupled with the institute's wide-ranging facilities and services, have created an extensive impact on the Indian food industry and Indian society at large.

Skilled workers breaking down large chunks of tuna with a sword-like knife (maguro bocho).

Tsukiji Shijo, the largest and busiest fish market in the world, has been a fixture in Tokyo's Chuo Ward since 1935 when the market was moved following the Great Kanto Earthquake.

Unfortunately, this is the last year one can see the historic market as it is relocating, controversially, to Toyosu in November (2016). Get there while you can--it's still as vibrant as ever. Also, consider viewing the tuna auctions in which massive specimens fetch ridiculously high prices.

Tsukiji Fish Market. Tsukiji, Tokyo.

Using pioneering new technologies in Superfoods and nutrition, CFTRI has developed amazing new products which are on show at CFTRI stall at Pragati Maidan:

· Chia and Quinoa based Chocolates and Laddoos;

· Omega-3 enriched ice-cream;

· Multigrain banana bar

· Fruit juice based carbonated drinks.

New Delhi, 24th November, 2016: CSIR-Central Food Technological Research Institute (CFTRI), the premier national institute for food technology is exhibiting a range of new agri-products now grown in India, called Superfoods that bring health and nutrition best practices to everyday eating and living to the common man. The exhibits by CFTRI at the Trade Fair at Pragati Maidan in New Delhi both impress and surprise with the range and scope of their utility and potency.

The Indian population is presently going through a nutrition transition and there is an increase in incidence of diabetes, impaired heart health and obesity while there is still rampant malnutrition in the nation.

Keeping in mind an effective solution needed to address these concerns, CSIR-CFTRI is working on bringing Superfoods to the Indian population. CFTRI works on various facets of food technology, food processing, advanced nutrition, Superfoods and allied sciences. Superfoods are foods which have superior nutrition profiles which upon regular consumption can help improve health and wellness of the consumer.

CFTRI has developed the agro-technology for growing Superfoods viz. Chia and Quinoa in Indian conditions. Chia is the richest source of omega-3 fats from a vegetarian source and Quinoa has excellent protein quality and low glycemic load carbohydrates. Comprehensively, Chia and Quinoa have potential to improve population health and both blend seamlessly into traditional food preparations.

CSIR-CFTRI also infuses the spirit of entrepreneurship in their students. One of the doctoral students after completing her academic program started her own technology provider start-up company, Oleome Biosolutions Pvt Ltd. In a global first, CSIR-CFTRI in collaboration with Oleome, has developed a 100% vegetarian, Omega-3-enriched Ice cream called “Nutriice” using Chia oil.

CSIR-CFTRI is also in the process of the final phase of testing of diacylglycerol (DAG) oil, a unique cooking oil that has “Anti-Obesity” functionalities. One can consume it as part of daily regular diet and while the oil is available as energy but does not get stored as fat in our bodies. The final phase of human clinical trial is presently under progress.

CFTRI has also designed and developed snacks with advanced nutrition designs to support the nutrition needs of growing children. These have been implemented in the aganwadi levels to complement the existing government mid-day meal and will be scaled up soon. The products, such as Nutri Chikki with spirulina, rice beverage mix, high protein rusk, energy food, nutri sprinkle, seasame paste and fortified mango bars have been well received by the children and the anganwadis alike. Multi-grain Banana bar is a new addition to in this product portfolio.

Another exciting area of multidisciplinary research being done at CSIR-CFTRI is on nanotechnology, food technology and nutrition. Nanomaterials are known for their characteristic properties and CSIR-CFTRI is working on the use of nanoparticles for various applications. One of our interesting developments is the design and development of food packaging material with nanoparticles with antimicrobial and antioxidant properties to improve shelf-life of processed foods.

CSIR-CFTRI is also working on “Smart Foods” to answer specific needs of the consumer. These promising and specifically designed innovations are being developed for better sleep, better skin health, improved digestion, better cognitive performance and better stress management. The high science is brought into a simple food product, like a cereal bar which helps one to be more attentive over the day, or a unique dosa mix that helps in working out better at the gym with lower perceived exhaustion and even a special soup to help sleep better at night!

Speaking on the sidelines of the CSIR-CFTRI exhibition at Pragati Maidn, Prof. Ram Rajasekharan, Director, CFTRI said “Our mandate is to find innovative solutions to India agricultural and nutritional challenges. Our aim is to develop products to make Indian agriculture productive, efficient and at a consumer level gradually replace drugs with foods that will promote better health and wellness. We strive to deliver our best in improving food security and nutrition security, also developing a stronger, smarter and healthier India”.

About CSIR-CFTRI:

CSIR − Central Food Technological Research Institute (CFTRI), Mysore (A constituent laboratory of Council of Scientific and Industrial Research, New Delhi) came into existence during 1950 with the great vision of its founders, and a network of inspiring as well as dedicated scientists who had a fascination to pursue in-depth research and development in the areas of food science and technology.

CSIR-CFTRI is today a large and diversified laboratory headed by Prof. Ram Rajasekharan, Director, CSIR-CFTRI. Presently the institute has a great team of scientists, technologists, engineers, technicians, skilled workers, and support staff. There are seventeen research and development departments, including laboratories focusing on lipid science, molecular nutrition, food engineering, food biotechnology, microbiology, biochemistry, food safety etc.

The institute has designed over 300 products, processes, and equipment types. It holds several patents and has a large number of high impact peer reviewed journal articles to its credit. India is the world's second largest food grain, fruit and vegetable producer, and the institute is engaged in research and development in the production and handling of grains, pulses, oilseeds, spices, fruits, vegetables, meat, fish, and poultry.

The institute develops technologies to increase efficiency and reduce postharvest losses, add convenience, increase export, find new sources of food products, integrate human resources in food industries and develops solutions to improve the health and wellness of the population.

CFTRI has a vast portfolio of over 300 products, processes and equipment designs, and close to 4000 licensees have availed themselves of these technologies for commercial exploitation. The achievements have been of considerable industrial value, social importance and national relevance, and coupled with the institute's wide-ranging facilities and services, have created an extensive impact on the Indian food industry and Indian society at large.

(for further pictures and information please go to the end of page and by clicking on the link my modest promises will be fulfilled!)

Parliament building

The original intention was to build two separate buildings for the Imperial Council and the House of Representatives of the by the February Patent 1861 established Reichsrat (Imperial Council). After the Compromise with Hungary, however, this plan was dropped and in the year 1869 the architect Theophil von Hansen by the Ministry of the Interior entrusted with the elaboration of the monumental project for a large parliament building. The first cut of the spade followed in June 1874, the foundation stone bears the date "2nd September 1874". At the same time was worked on the erection of the imperial museums, the Town Hall and the University. Theophil Hansen took - as already mentioned - well thought out and in a very meaningful way the style of the Viennese parliament building from ancient Greece; stem important constitutional terms but also from the Greek antiquity - such as "politics", "democracy" and others. Symbolic meaning had also that from nearly all crown lands of the monarchy materials have been used for the construction of the parliament building. Thus, the structure should symbolize the confluence of all the forces "of the in the in the Reichsrat represented kingdoms and countries" in the Vienna parliament building. With the downfall of the Austro-Hungarian monarchy ended the era of the multinational Parliament in Vienna.

Since November 1918, the building is the seat of the parliamentary bodies of the Republic of Austria, first the National Assembly and later the National Council in the until its destruction in 1945 remained unchanged session hall of the former Imperial Council holding meetings. During the Second World War, the parliament building was severely affected, about half of the building fabric were destroyed. On 7th February 1945 the portico by bombing suffered serious damage. Two columns were totally destroyed, the edge ceiling construction with the richly gilded coffered ceiling and a magnificent frieze painting, which was 121 meters long and 2 meters high and the most ideal and economic roles of the Parliament representing allegorically, were seriously damaged. During reconstruction, the rebuilding did not occur in the originally from Hansen originating features: instead of Pavonazzo marble for the wall plate cover Salzburg marble was used. The frieze painting initially not could be recovered, only in the 90s it should be possible to restore single surviving parts. In addition to destructions in the Chancellery Wing at the Ring Road as well as in the portico especially the Imperial Council tract was severely affected by the effects of war. The meeting room of the Imperial Council was completely burned out, in particular the figural jewelry as well as the ruined marble statues of Lycurgus, Solon, Themistocles, Aristides, Sophocles, Socrates, Pericles and Demosthenes appearing hardly recoverable. In this circumstances, it was decided not to reconstruct the old Imperial Council hall, but a new hall with a businesslike but refined and convenient furnishing for the National Council of the Republic of Austria to build. During the reconstruction of the building in the years 1945 to 1956 efforts were also made the yet by Hansen envisaged technical independence further to develop and to perfect. Thus the parliament building now has an emergency generator, which ensures, any time, adequate electricity supply of the house in case of failure of the city network, and a variety of other technical facilities, which guarantee a high supply autonomy. Not only from basic considerations in the sense of seperation of powers but also from the possibility of an extraordinary emergency, is this a compelling need. National Council and the Federal Council as the elected representative bodies of the Austrian people must at all times - especially in case of disaster - the material conditions for their activity have guaranteed. This purpose serve the mentioned facilities and many others, sometimes very complicated ones and the persons entrusted with their maintenance. To the staff of the Parliamentary Administration therefore belong not only academics, stenographers, administrators, secretaries and officials of the room service as in each parliament, but also the with the maintenance of the infrastructure of the parliament building entrusted technicians and skilled workers.

Analogous to other parliaments was for years, even decades tried to acquire or to rent one or the other object near the Parliament building. Finally one was able in 1981 to start with a basic conversion or expansion of the house Reichsratsstrasse 9 under planning by the architect Prof. Dr. Sepp Stein, in this connection was given the order the parliament building through a tunnel with the house in the Reichsratsstrasse to connect. With this tunnel not only a connection for pedestrians should be established, but also a technical integration of the two houses. In the basement of the building in which in early 1985 could be moved in, confluences the road tunnel; furthermore it serves the accommodation of technical rooms as well as of the storage, preparation and staff rooms for a restauration, a main kitchen and a restaurant for about 130 people are housed on the ground floor. On the first floor are located dining rooms for about 110 people; workrooms for MPs are in the second, offices in the third to the sixth floor housed. Ten years after the house Reichsratsstrasse 9 another building could be purchased, the house Reichsratsstrasse 1, and, again under the planning leadership of architect Prof. Dr. Sepp Stein, adapted for the purposes of the Parliament. This house also through an in the basement joining under road tunnel with the Parliament building was connected. The basement houses storage rooms, the ground floor next to an "info-shop" where information materials concerning the Austrian Parlament can be obtained, the Parliament Post Office and the printery. In the six upper floors are offices and other work spaces for different departments of the Parliamentary Administration. The previously by these departments used rooms in the Parliament building were, after it was moved into the house Reichsratsstrasse in 1994, mostly the parliamentary clubs made available. Already in 1992 by the rental of rooms in a building in the Schenkenstraße for the parliamentary staff of the deputies office premises had been created.

Pallas Athene

Parliament Vienna

The 5.5 meter high monumental statue of Pallas Athena in front of the parliament building in Vienna gives not only the outside appearance of this building a striking sculptural accent, but has almost become a symbolic figure of the Austrian parliamentarism. The Danish architect Theophil Hansen, according to which draft in the years 1874-1884 the parliament building has been built, has designed this as a "work of art (Gesamtkunstwerk)"; thus, his planning also including the figural decoration of the building. The in front of the Parliament ramp to be built monumental fountain should according to Hansen's original planning be crowned of an allegoric representation of the Austria, that is, a symbolization of Austria. In the definitive, in 1878 by Hansen submitted figure program took its place Pallas Athena, the Greek goddess of wisdom. The monumental statue was realized only after Hansen's death, but according to his design by sculptor Carl Kundmann in 1902.

Meeting room of the former House of Representatives

The meeting room of the former House of Representatives is largely preserved faithfully and now serves the meetings of the Federal Assembly as well as ceremonies and commemorative meetings of the National Council and the Federal Council. Architecturally, the hall is modeled on a Greek theater. Before the end wall is the presidium with the lectern and the Government Bench, in the semicircle the seats of the deputies are arranged. The from Carrara marble carved statues on the front wall - between the ​​of Unterberger marble manufactured columns and pilasters - represent Roman statesmen, the by Friedrich Eisenmenger realised frieze painting depicts the emergence of political life, and the pediment group above it should symbolize the daily routine.

Portico

The large portico, in its proportions recreating the Parthenon of the Acropolis of Athens, forms the central chamber of the parliament building and should according to the original intention serve as a meeting place between members of the House of Representatives and of the Imperial Council. Today it functions as a venue, such as for the annual reception of the President of the National Council and the President of the Federal Council for the Diplomatic Corps. When choosing materials for the parliament building, Theophil Hansen strove to use marbles and stones from the crown lands of the monarchy, thus expressing their attachment to their Parliament. For example, consist the 24 monolithic, that is, produced from one-piece, columns, each more than 16 tons of weight, of the great hypostyle hall of Adnet marble, the floor panels of Istrian karst marble. When in the last months of the Second World War the Parliament building was severely affected by bomb hits, also the portico suffered severe damage, and the two columns in the north-west corner of the hall were destroyed, the edge ceiling construction with the richly gilded coffered ceiling and below the ceiling running frieze painting by Eduard Lebiedzki have been severely damaged. The two destroyed columns in 1950 were replaced by two new ones, broken from the same quarry as the originals, but not exhibiting the same pattern. The parts of the Lebiedzki frieze which have been restorable only in the 90s could be restored.

www.wien-vienna.at/index.php?ID=1102

(for further pictures and information please go to the end of page and by clicking on the link my modest promises will be fulfilled!)

Parliament building

The original intention was to build two separate buildings for the Imperial Council and the House of Representatives of the by the February Patent 1861 established Reichsrat (Imperial Council). After the Compromise with Hungary, however, this plan was dropped and in the year 1869 the architect Theophil von Hansen by the Ministry of the Interior entrusted with the elaboration of the monumental project for a large parliament building. The first cut of the spade followed in June 1874, the foundation stone bears the date "2nd September 1874". At the same time was worked on the erection of the imperial museums, the Town Hall and the University. Theophil Hansen took - as already mentioned - well thought out and in a very meaningful way the style of the Viennese parliament building from ancient Greece; stem important constitutional terms but also from the Greek antiquity - such as "politics", "democracy" and others. Symbolic meaning had also that from nearly all crown lands of the monarchy materials have been used for the construction of the parliament building. Thus, the structure should symbolize the confluence of all the forces "of the in the in the Reichsrat represented kingdoms and countries" in the Vienna parliament building. With the downfall of the Austro-Hungarian monarchy ended the era of the multinational Parliament in Vienna.

Since November 1918, the building is the seat of the parliamentary bodies of the Republic of Austria, first the National Assembly and later the National Council in the until its destruction in 1945 remained unchanged session hall of the former Imperial Council holding meetings. During the Second World War, the parliament building was severely affected, about half of the building fabric were destroyed. On 7th February 1945 the portico by bombing suffered serious damage. Two columns were totally destroyed, the edge ceiling construction with the richly gilded coffered ceiling and a magnificent frieze painting, which was 121 meters long and 2 meters high and the most ideal and economic roles of the Parliament representing allegorically, were seriously damaged. During reconstruction, the rebuilding did not occur in the originally from Hansen originating features: instead of Pavonazzo marble for the wall plate cover Salzburg marble was used. The frieze painting initially not could be recovered, only in the 90s it should be possible to restore single surviving parts. In addition to destructions in the Chancellery Wing at the Ring Road as well as in the portico especially the Imperial Council tract was severely affected by the effects of war. The meeting room of the Imperial Council was completely burned out, in particular the figural jewelry as well as the ruined marble statues of Lycurgus, Solon, Themistocles, Aristides, Sophocles, Socrates, Pericles and Demosthenes appearing hardly recoverable. In this circumstances, it was decided not to reconstruct the old Imperial Council hall, but a new hall with a businesslike but refined and convenient furnishing for the National Council of the Republic of Austria to build. During the reconstruction of the building in the years 1945 to 1956 efforts were also made the yet by Hansen envisaged technical independence further to develop and to perfect. Thus the parliament building now has an emergency generator, which ensures, any time, adequate electricity supply of the house in case of failure of the city network, and a variety of other technical facilities, which guarantee a high supply autonomy. Not only from basic considerations in the sense of seperation of powers but also from the possibility of an extraordinary emergency, is this a compelling need. National Council and the Federal Council as the elected representative bodies of the Austrian people must at all times - especially in case of disaster - the material conditions for their activity have guaranteed. This purpose serve the mentioned facilities and many others, sometimes very complicated ones and the persons entrusted with their maintenance. To the staff of the Parliamentary Administration therefore belong not only academics, stenographers, administrators, secretaries and officials of the room service as in each parliament, but also the with the maintenance of the infrastructure of the parliament building entrusted technicians and skilled workers.

Analogous to other parliaments was for years, even decades tried to acquire or to rent one or the other object near the Parliament building. Finally one was able in 1981 to start with a basic conversion or expansion of the house Reichsratsstrasse 9 under planning by the architect Prof. Dr. Sepp Stein, in this connection was given the order the parliament building through a tunnel with the house in the Reichsratsstrasse to connect. With this tunnel not only a connection for pedestrians should be established, but also a technical integration of the two houses. In the basement of the building in which in early 1985 could be moved in, confluences the road tunnel; furthermore it serves the accommodation of technical rooms as well as of the storage, preparation and staff rooms for a restauration, a main kitchen and a restaurant for about 130 people are housed on the ground floor. On the first floor are located dining rooms for about 110 people; workrooms for MPs are in the second, offices in the third to the sixth floor housed. Ten years after the house Reichsratsstrasse 9 another building could be purchased, the house Reichsratsstrasse 1, and, again under the planning leadership of architect Prof. Dr. Sepp Stein, adapted for the purposes of the Parliament. This house also through an in the basement joining under road tunnel with the Parliament building was connected. The basement houses storage rooms, the ground floor next to an "info-shop" where information materials concerning the Austrian Parlament can be obtained, the Parliament Post Office and the printery. In the six upper floors are offices and other work spaces for different departments of the Parliamentary Administration. The previously by these departments used rooms in the Parliament building were, after it was moved into the house Reichsratsstrasse in 1994, mostly the parliamentary clubs made available. Already in 1992 by the rental of rooms in a building in the Schenkenstraße for the parliamentary staff of the deputies office premises had been created.

Pallas Athene

Parliament Vienna

The 5.5 meter high monumental statue of Pallas Athena in front of the parliament building in Vienna gives not only the outside appearance of this building a striking sculptural accent, but has almost become a symbolic figure of the Austrian parliamentarism. The Danish architect Theophil Hansen, according to which draft in the years 1874-1884 the parliament building has been built, has designed this as a "work of art (Gesamtkunstwerk)"; thus, his planning also including the figural decoration of the building. The in front of the Parliament ramp to be built monumental fountain should according to Hansen's original planning be crowned of an allegoric representation of the Austria, that is, a symbolization of Austria. In the definitive, in 1878 by Hansen submitted figure program took its place Pallas Athena, the Greek goddess of wisdom. The monumental statue was realized only after Hansen's death, but according to his design by sculptor Carl Kundmann in 1902.

Meeting room of the former House of Representatives

The meeting room of the former House of Representatives is largely preserved faithfully and now serves the meetings of the Federal Assembly as well as ceremonies and commemorative meetings of the National Council and the Federal Council. Architecturally, the hall is modeled on a Greek theater. Before the end wall is the presidium with the lectern and the Government Bench, in the semicircle the seats of the deputies are arranged. The from Carrara marble carved statues on the front wall - between the ​​of Unterberger marble manufactured columns and pilasters - represent Roman statesmen, the by Friedrich Eisenmenger realised frieze painting depicts the emergence of political life, and the pediment group above it should symbolize the daily routine.

Portico

The large portico, in its proportions recreating the Parthenon of the Acropolis of Athens, forms the central chamber of the parliament building and should according to the original intention serve as a meeting place between members of the House of Representatives and of the Imperial Council. Today it functions as a venue, such as for the annual reception of the President of the National Council and the President of the Federal Council for the Diplomatic Corps. When choosing materials for the parliament building, Theophil Hansen strove to use marbles and stones from the crown lands of the monarchy, thus expressing their attachment to their Parliament. For example, consist the 24 monolithic, that is, produced from one-piece, columns, each more than 16 tons of weight, of the great hypostyle hall of Adnet marble, the floor panels of Istrian karst marble. When in the last months of the Second World War the Parliament building was severely affected by bomb hits, also the portico suffered severe damage, and the two columns in the north-west corner of the hall were destroyed, the edge ceiling construction with the richly gilded coffered ceiling and below the ceiling running frieze painting by Eduard Lebiedzki have been severely damaged. The two destroyed columns in 1950 were replaced by two new ones, broken from the same quarry as the originals, but not exhibiting the same pattern. The parts of the Lebiedzki frieze which have been restorable only in the 90s could be restored.

www.wien-vienna.at/index.php?ID=1102

(for further pictures and information please go to the end of page and by clicking on the link my modest promises will be fulfilled!)

Parliament building

The original intention was to build two separate buildings for the Imperial Council and the House of Representatives of the by the February Patent 1861 established Reichsrat (Imperial Council). After the Compromise with Hungary, however, this plan was dropped and in the year 1869 the architect Theophil von Hansen by the Ministry of the Interior entrusted with the elaboration of the monumental project for a large parliament building. The first cut of the spade followed in June 1874, the foundation stone bears the date "2nd September 1874". At the same time was worked on the erection of the imperial museums, the Town Hall and the University. Theophil Hansen took - as already mentioned - well thought out and in a very meaningful way the style of the Viennese parliament building from ancient Greece; stem important constitutional terms but also from the Greek antiquity - such as "politics", "democracy" and others. Symbolic meaning had also that from nearly all crown lands of the monarchy materials have been used for the construction of the parliament building. Thus, the structure should symbolize the confluence of all the forces "of the in the in the Reichsrat represented kingdoms and countries" in the Vienna parliament building. With the downfall of the Austro-Hungarian monarchy ended the era of the multinational Parliament in Vienna.

Since November 1918, the building is the seat of the parliamentary bodies of the Republic of Austria, first the National Assembly and later the National Council in the until its destruction in 1945 remained unchanged session hall of the former Imperial Council holding meetings. During the Second World War, the parliament building was severely affected, about half of the building fabric were destroyed. On 7th February 1945 the portico by bombing suffered serious damage. Two columns were totally destroyed, the edge ceiling construction with the richly gilded coffered ceiling and a magnificent frieze painting, which was 121 meters long and 2 meters high and the most ideal and economic roles of the Parliament representing allegorically, were seriously damaged. During reconstruction, the rebuilding did not occur in the originally from Hansen originating features: instead of Pavonazzo marble for the wall plate cover Salzburg marble was used. The frieze painting initially not could be recovered, only in the 90s it should be possible to restore single surviving parts. In addition to destructions in the Chancellery Wing at the Ring Road as well as in the portico especially the Imperial Council tract was severely affected by the effects of war. The meeting room of the Imperial Council was completely burned out, in particular the figural jewelry as well as the ruined marble statues of Lycurgus, Solon, Themistocles, Aristides, Sophocles, Socrates, Pericles and Demosthenes appearing hardly recoverable. In this circumstances, it was decided not to reconstruct the old Imperial Council hall, but a new hall with a businesslike but refined and convenient furnishing for the National Council of the Republic of Austria to build. During the reconstruction of the building in the years 1945 to 1956 efforts were also made the yet by Hansen envisaged technical independence further to develop and to perfect. Thus the parliament building now has an emergency generator, which ensures, any time, adequate electricity supply of the house in case of failure of the city network, and a variety of other technical facilities, which guarantee a high supply autonomy. Not only from basic considerations in the sense of seperation of powers but also from the possibility of an extraordinary emergency, is this a compelling need. National Council and the Federal Council as the elected representative bodies of the Austrian people must at all times - especially in case of disaster - the material conditions for their activity have guaranteed. This purpose serve the mentioned facilities and many others, sometimes very complicated ones and the persons entrusted with their maintenance. To the staff of the Parliamentary Administration therefore belong not only academics, stenographers, administrators, secretaries and officials of the room service as in each parliament, but also the with the maintenance of the infrastructure of the parliament building entrusted technicians and skilled workers.

Analogous to other parliaments was for years, even decades tried to acquire or to rent one or the other object near the Parliament building. Finally one was able in 1981 to start with a basic conversion or expansion of the house Reichsratsstrasse 9 under planning by the architect Prof. Dr. Sepp Stein, in this connection was given the order the parliament building through a tunnel with the house in the Reichsratsstrasse to connect. With this tunnel not only a connection for pedestrians should be established, but also a technical integration of the two houses. In the basement of the building in which in early 1985 could be moved in, confluences the road tunnel; furthermore it serves the accommodation of technical rooms as well as of the storage, preparation and staff rooms for a restauration, a main kitchen and a restaurant for about 130 people are housed on the ground floor. On the first floor are located dining rooms for about 110 people; workrooms for MPs are in the second, offices in the third to the sixth floor housed. Ten years after the house Reichsratsstrasse 9 another building could be purchased, the house Reichsratsstrasse 1, and, again under the planning leadership of architect Prof. Dr. Sepp Stein, adapted for the purposes of the Parliament. This house also through an in the basement joining under road tunnel with the Parliament building was connected. The basement houses storage rooms, the ground floor next to an "info-shop" where information materials concerning the Austrian Parlament can be obtained, the Parliament Post Office and the printery. In the six upper floors are offices and other work spaces for different departments of the Parliamentary Administration. The previously by these departments used rooms in the Parliament building were, after it was moved into the house Reichsratsstrasse in 1994, mostly the parliamentary clubs made available. Already in 1992 by the rental of rooms in a building in the Schenkenstraße for the parliamentary staff of the deputies office premises had been created.

Pallas Athene

Parliament Vienna

The 5.5 meter high monumental statue of Pallas Athena in front of the parliament building in Vienna gives not only the outside appearance of this building a striking sculptural accent, but has almost become a symbolic figure of the Austrian parliamentarism. The Danish architect Theophil Hansen, according to which draft in the years 1874-1884 the parliament building has been built, has designed this as a "work of art (Gesamtkunstwerk)"; thus, his planning also including the figural decoration of the building. The in front of the Parliament ramp to be built monumental fountain should according to Hansen's original planning be crowned of an allegoric representation of the Austria, that is, a symbolization of Austria. In the definitive, in 1878 by Hansen submitted figure program took its place Pallas Athena, the Greek goddess of wisdom. The monumental statue was realized only after Hansen's death, but according to his design by sculptor Carl Kundmann in 1902.

Meeting room of the former House of Representatives

The meeting room of the former House of Representatives is largely preserved faithfully and now serves the meetings of the Federal Assembly as well as ceremonies and commemorative meetings of the National Council and the Federal Council. Architecturally, the hall is modeled on a Greek theater. Before the end wall is the presidium with the lectern and the Government Bench, in the semicircle the seats of the deputies are arranged. The from Carrara marble carved statues on the front wall - between the ​​of Unterberger marble manufactured columns and pilasters - represent Roman statesmen, the by Friedrich Eisenmenger realised frieze painting depicts the emergence of political life, and the pediment group above it should symbolize the daily routine.

Portico

The large portico, in its proportions recreating the Parthenon of the Acropolis of Athens, forms the central chamber of the parliament building and should according to the original intention serve as a meeting place between members of the House of Representatives and of the Imperial Council. Today it functions as a venue, such as for the annual reception of the President of the National Council and the President of the Federal Council for the Diplomatic Corps. When choosing materials for the parliament building, Theophil Hansen strove to use marbles and stones from the crown lands of the monarchy, thus expressing their attachment to their Parliament. For example, consist the 24 monolithic, that is, produced from one-piece, columns, each more than 16 tons of weight, of the great hypostyle hall of Adnet marble, the floor panels of Istrian karst marble. When in the last months of the Second World War the Parliament building was severely affected by bomb hits, also the portico suffered severe damage, and the two columns in the north-west corner of the hall were destroyed, the edge ceiling construction with the richly gilded coffered ceiling and below the ceiling running frieze painting by Eduard Lebiedzki have been severely damaged. The two destroyed columns in 1950 were replaced by two new ones, broken from the same quarry as the originals, but not exhibiting the same pattern. The parts of the Lebiedzki frieze which have been restorable only in the 90s could be restored.

www.wien-vienna.at/index.php?ID=1102

Pan America uses a unique anti-crease formula for its wrinkle free shirts and trousers. Each piece is cured and treated properly under high-pressure steam and extreme temperatures, at the same time ensuring that they do not sag or wilt. While automation is use extensively, many of our steps rely on the keen eyes and able hands of a team of skilled workers trained to deliver excellence.

Visit : www.panamerica.in

Using pioneering new technologies in Superfoods and nutrition, CFTRI has developed amazing new products which are on show at CFTRI stall at Pragati Maidan:

· Chia and Quinoa based Chocolates and Laddoos;

· Omega-3 enriched ice-cream;

· Multigrain banana bar

· Fruit juice based carbonated drinks.

New Delhi, 24th November, 2016: CSIR-Central Food Technological Research Institute (CFTRI), the premier national institute for food technology is exhibiting a range of new agri-products now grown in India, called Superfoods that bring health and nutrition best practices to everyday eating and living to the common man. The exhibits by CFTRI at the Trade Fair at Pragati Maidan in New Delhi both impress and surprise with the range and scope of their utility and potency.

The Indian population is presently going through a nutrition transition and there is an increase in incidence of diabetes, impaired heart health and obesity while there is still rampant malnutrition in the nation.

Keeping in mind an effective solution needed to address these concerns, CSIR-CFTRI is working on bringing Superfoods to the Indian population. CFTRI works on various facets of food technology, food processing, advanced nutrition, Superfoods and allied sciences. Superfoods are foods which have superior nutrition profiles which upon regular consumption can help improve health and wellness of the consumer.

CFTRI has developed the agro-technology for growing Superfoods viz. Chia and Quinoa in Indian conditions. Chia is the richest source of omega-3 fats from a vegetarian source and Quinoa has excellent protein quality and low glycemic load carbohydrates. Comprehensively, Chia and Quinoa have potential to improve population health and both blend seamlessly into traditional food preparations.

CSIR-CFTRI also infuses the spirit of entrepreneurship in their students. One of the doctoral students after completing her academic program started her own technology provider start-up company, Oleome Biosolutions Pvt Ltd. In a global first, CSIR-CFTRI in collaboration with Oleome, has developed a 100% vegetarian, Omega-3-enriched Ice cream called “Nutriice” using Chia oil.

CSIR-CFTRI is also in the process of the final phase of testing of diacylglycerol (DAG) oil, a unique cooking oil that has “Anti-Obesity” functionalities. One can consume it as part of daily regular diet and while the oil is available as energy but does not get stored as fat in our bodies. The final phase of human clinical trial is presently under progress.

CFTRI has also designed and developed snacks with advanced nutrition designs to support the nutrition needs of growing children. These have been implemented in the aganwadi levels to complement the existing government mid-day meal and will be scaled up soon. The products, such as Nutri Chikki with spirulina, rice beverage mix, high protein rusk, energy food, nutri sprinkle, seasame paste and fortified mango bars have been well received by the children and the anganwadis alike. Multi-grain Banana bar is a new addition to in this product portfolio.

Another exciting area of multidisciplinary research being done at CSIR-CFTRI is on nanotechnology, food technology and nutrition. Nanomaterials are known for their characteristic properties and CSIR-CFTRI is working on the use of nanoparticles for various applications. One of our interesting developments is the design and development of food packaging material with nanoparticles with antimicrobial and antioxidant properties to improve shelf-life of processed foods.

CSIR-CFTRI is also working on “Smart Foods” to answer specific needs of the consumer. These promising and specifically designed innovations are being developed for better sleep, better skin health, improved digestion, better cognitive performance and better stress management. The high science is brought into a simple food product, like a cereal bar which helps one to be more attentive over the day, or a unique dosa mix that helps in working out better at the gym with lower perceived exhaustion and even a special soup to help sleep better at night!

Speaking on the sidelines of the CSIR-CFTRI exhibition at Pragati Maidn, Prof. Ram Rajasekharan, Director, CFTRI said “Our mandate is to find innovative solutions to India agricultural and nutritional challenges. Our aim is to develop products to make Indian agriculture productive, efficient and at a consumer level gradually replace drugs with foods that will promote better health and wellness. We strive to deliver our best in improving food security and nutrition security, also developing a stronger, smarter and healthier India”.

About CSIR-CFTRI:

CSIR − Central Food Technological Research Institute (CFTRI), Mysore (A constituent laboratory of Council of Scientific and Industrial Research, New Delhi) came into existence during 1950 with the great vision of its founders, and a network of inspiring as well as dedicated scientists who had a fascination to pursue in-depth research and development in the areas of food science and technology.

CSIR-CFTRI is today a large and diversified laboratory headed by Prof. Ram Rajasekharan, Director, CSIR-CFTRI. Presently the institute has a great team of scientists, technologists, engineers, technicians, skilled workers, and support staff. There are seventeen research and development departments, including laboratories focusing on lipid science, molecular nutrition, food engineering, food biotechnology, microbiology, biochemistry, food safety etc.

The institute has designed over 300 products, processes, and equipment types. It holds several patents and has a large number of high impact peer reviewed journal articles to its credit. India is the world's second largest food grain, fruit and vegetable producer, and the institute is engaged in research and development in the production and handling of grains, pulses, oilseeds, spices, fruits, vegetables, meat, fish, and poultry.

The institute develops technologies to increase efficiency and reduce postharvest losses, add convenience, increase export, find new sources of food products, integrate human resources in food industries and develops solutions to improve the health and wellness of the population.

CFTRI has a vast portfolio of over 300 products, processes and equipment designs, and close to 4000 licensees have availed themselves of these technologies for commercial exploitation. The achievements have been of considerable industrial value, social importance and national relevance, and coupled with the institute's wide-ranging facilities and services, have created an extensive impact on the Indian food industry and Indian society at large.

Using pioneering new technologies in Superfoods and nutrition, CFTRI has developed amazing new products which are on show at CFTRI stall at Pragati Maidan:

· Chia and Quinoa based Chocolates and Laddoos;

· Omega-3 enriched ice-cream;

· Multigrain banana bar

· Fruit juice based carbonated drinks.

New Delhi, 24th November, 2016: CSIR-Central Food Technological Research Institute (CFTRI), the premier national institute for food technology is exhibiting a range of new agri-products now grown in India, called Superfoods that bring health and nutrition best practices to everyday eating and living to the common man. The exhibits by CFTRI at the Trade Fair at Pragati Maidan in New Delhi both impress and surprise with the range and scope of their utility and potency.

The Indian population is presently going through a nutrition transition and there is an increase in incidence of diabetes, impaired heart health and obesity while there is still rampant malnutrition in the nation.

Keeping in mind an effective solution needed to address these concerns, CSIR-CFTRI is working on bringing Superfoods to the Indian population. CFTRI works on various facets of food technology, food processing, advanced nutrition, Superfoods and allied sciences. Superfoods are foods which have superior nutrition profiles which upon regular consumption can help improve health and wellness of the consumer.

CFTRI has developed the agro-technology for growing Superfoods viz. Chia and Quinoa in Indian conditions. Chia is the richest source of omega-3 fats from a vegetarian source and Quinoa has excellent protein quality and low glycemic load carbohydrates. Comprehensively, Chia and Quinoa have potential to improve population health and both blend seamlessly into traditional food preparations.

CSIR-CFTRI also infuses the spirit of entrepreneurship in their students. One of the doctoral students after completing her academic program started her own technology provider start-up company, Oleome Biosolutions Pvt Ltd. In a global first, CSIR-CFTRI in collaboration with Oleome, has developed a 100% vegetarian, Omega-3-enriched Ice cream called “Nutriice” using Chia oil.

CSIR-CFTRI is also in the process of the final phase of testing of diacylglycerol (DAG) oil, a unique cooking oil that has “Anti-Obesity” functionalities. One can consume it as part of daily regular diet and while the oil is available as energy but does not get stored as fat in our bodies. The final phase of human clinical trial is presently under progress.

CFTRI has also designed and developed snacks with advanced nutrition designs to support the nutrition needs of growing children. These have been implemented in the aganwadi levels to complement the existing government mid-day meal and will be scaled up soon. The products, such as Nutri Chikki with spirulina, rice beverage mix, high protein rusk, energy food, nutri sprinkle, seasame paste and fortified mango bars have been well received by the children and the anganwadis alike. Multi-grain Banana bar is a new addition to in this product portfolio.

Another exciting area of multidisciplinary research being done at CSIR-CFTRI is on nanotechnology, food technology and nutrition. Nanomaterials are known for their characteristic properties and CSIR-CFTRI is working on the use of nanoparticles for various applications. One of our interesting developments is the design and development of food packaging material with nanoparticles with antimicrobial and antioxidant properties to improve shelf-life of processed foods.

CSIR-CFTRI is also working on “Smart Foods” to answer specific needs of the consumer. These promising and specifically designed innovations are being developed for better sleep, better skin health, improved digestion, better cognitive performance and better stress management. The high science is brought into a simple food product, like a cereal bar which helps one to be more attentive over the day, or a unique dosa mix that helps in working out better at the gym with lower perceived exhaustion and even a special soup to help sleep better at night!

Speaking on the sidelines of the CSIR-CFTRI exhibition at Pragati Maidn, Prof. Ram Rajasekharan, Director, CFTRI said “Our mandate is to find innovative solutions to India agricultural and nutritional challenges. Our aim is to develop products to make Indian agriculture productive, efficient and at a consumer level gradually replace drugs with foods that will promote better health and wellness. We strive to deliver our best in improving food security and nutrition security, also developing a stronger, smarter and healthier India”.

About CSIR-CFTRI:

CSIR − Central Food Technological Research Institute (CFTRI), Mysore (A constituent laboratory of Council of Scientific and Industrial Research, New Delhi) came into existence during 1950 with the great vision of its founders, and a network of inspiring as well as dedicated scientists who had a fascination to pursue in-depth research and development in the areas of food science and technology.

CSIR-CFTRI is today a large and diversified laboratory headed by Prof. Ram Rajasekharan, Director, CSIR-CFTRI. Presently the institute has a great team of scientists, technologists, engineers, technicians, skilled workers, and support staff. There are seventeen research and development departments, including laboratories focusing on lipid science, molecular nutrition, food engineering, food biotechnology, microbiology, biochemistry, food safety etc.

The institute has designed over 300 products, processes, and equipment types. It holds several patents and has a large number of high impact peer reviewed journal articles to its credit. India is the world's second largest food grain, fruit and vegetable producer, and the institute is engaged in research and development in the production and handling of grains, pulses, oilseeds, spices, fruits, vegetables, meat, fish, and poultry.

The institute develops technologies to increase efficiency and reduce postharvest losses, add convenience, increase export, find new sources of food products, integrate human resources in food industries and develops solutions to improve the health and wellness of the population.

CFTRI has a vast portfolio of over 300 products, processes and equipment designs, and close to 4000 licensees have availed themselves of these technologies for commercial exploitation. The achievements have been of considerable industrial value, social importance and national relevance, and coupled with the institute's wide-ranging facilities and services, have created an extensive impact on the Indian food industry and Indian society at large.

Tallest buidling in the world.

N.B. See my profile for usage guidelines.

From Wikipedia:

Burj Khalifa was built primarily by workers from South Asia. Press reports indicated in 2006 that skilled carpenters at the site earned UK£4.34 a day, and labourers earned UK£2.84. According to a BBC investigation and a Human Rights Watch report, the workers were housed in abysmal conditions, their pay was often withheld, their passports were confiscated by their employers, and they were working in hazardous conditions that resulted in an apparently high number of deaths and injuries on site.

On 21 March 2006, about 2,500 workers, who were upset over buses that were delayed for the end of their shifts, protested, damaging cars, offices, computers, and construction equipment. A Dubai Interior Ministry official said the rioters caused almost UK£500,000 in damage. Most of the workers involved in the riot returned the following day but refused to work.

On 17 June 2008, there were 7,500 skilled workers employed in the construction of Burj Khalifa.

For a nice photo that highlights safety measures for workers in Dubai, i.e. helmets, see

www.flickr.com/photos/skifatenum/3519043883/in/set-721576...

(for further pictures and information please go to the end of page and by clicking on the link my modest promises will be fulfilled!)

Parliament building

The original intention was to build two separate buildings for the Imperial Council and the House of Representatives of the by the February Patent 1861 established Reichsrat (Imperial Council). After the Compromise with Hungary, however, this plan was dropped and in the year 1869 the architect Theophil von Hansen by the Ministry of the Interior entrusted with the elaboration of the monumental project for a large parliament building. The first cut of the spade followed in June 1874, the foundation stone bears the date "2nd September 1874". At the same time was worked on the erection of the imperial museums, the Town Hall and the University. Theophil Hansen took - as already mentioned - well thought out and in a very meaningful way the style of the Viennese parliament building from ancient Greece; stem important constitutional terms but also from the Greek antiquity - such as "politics", "democracy" and others. Symbolic meaning had also that from nearly all crown lands of the monarchy materials have been used for the construction of the parliament building. Thus, the structure should symbolize the confluence of all the forces "of the in the in the Reichsrat represented kingdoms and countries" in the Vienna parliament building. With the downfall of the Austro-Hungarian monarchy ended the era of the multinational Parliament in Vienna.

Since November 1918, the building is the seat of the parliamentary bodies of the Republic of Austria, first the National Assembly and later the National Council in the until its destruction in 1945 remained unchanged session hall of the former Imperial Council holding meetings. During the Second World War, the parliament building was severely affected, about half of the building fabric were destroyed. On 7th February 1945 the portico by bombing suffered serious damage. Two columns were totally destroyed, the edge ceiling construction with the richly gilded coffered ceiling and a magnificent frieze painting, which was 121 meters long and 2 meters high and the most ideal and economic roles of the Parliament representing allegorically, were seriously damaged. During reconstruction, the rebuilding did not occur in the originally from Hansen originating features: instead of Pavonazzo marble for the wall plate cover Salzburg marble was used. The frieze painting initially not could be recovered, only in the 90s it should be possible to restore single surviving parts. In addition to destructions in the Chancellery Wing at the Ring Road as well as in the portico especially the Imperial Council tract was severely affected by the effects of war. The meeting room of the Imperial Council was completely burned out, in particular the figural jewelry as well as the ruined marble statues of Lycurgus, Solon, Themistocles, Aristides, Sophocles, Socrates, Pericles and Demosthenes appearing hardly recoverable. In this circumstances, it was decided not to reconstruct the old Imperial Council hall, but a new hall with a businesslike but refined and convenient furnishing for the National Council of the Republic of Austria to build. During the reconstruction of the building in the years 1945 to 1956 efforts were also made the yet by Hansen envisaged technical independence further to develop and to perfect. Thus the parliament building now has an emergency generator, which ensures, any time, adequate electricity supply of the house in case of failure of the city network, and a variety of other technical facilities, which guarantee a high supply autonomy. Not only from basic considerations in the sense of seperation of powers but also from the possibility of an extraordinary emergency, is this a compelling need. National Council and the Federal Council as the elected representative bodies of the Austrian people must at all times - especially in case of disaster - the material conditions for their activity have guaranteed. This purpose serve the mentioned facilities and many others, sometimes very complicated ones and the persons entrusted with their maintenance. To the staff of the Parliamentary Administration therefore belong not only academics, stenographers, administrators, secretaries and officials of the room service as in each parliament, but also the with the maintenance of the infrastructure of the parliament building entrusted technicians and skilled workers.

Analogous to other parliaments was for years, even decades tried to acquire or to rent one or the other object near the Parliament building. Finally one was able in 1981 to start with a basic conversion or expansion of the house Reichsratsstrasse 9 under planning by the architect Prof. Dr. Sepp Stein, in this connection was given the order the parliament building through a tunnel with the house in the Reichsratsstrasse to connect. With this tunnel not only a connection for pedestrians should be established, but also a technical integration of the two houses. In the basement of the building in which in early 1985 could be moved in, confluences the road tunnel; furthermore it serves the accommodation of technical rooms as well as of the storage, preparation and staff rooms for a restauration, a main kitchen and a restaurant for about 130 people are housed on the ground floor. On the first floor are located dining rooms for about 110 people; workrooms for MPs are in the second, offices in the third to the sixth floor housed. Ten years after the house Reichsratsstrasse 9 another building could be purchased, the house Reichsratsstrasse 1, and, again under the planning leadership of architect Prof. Dr. Sepp Stein, adapted for the purposes of the Parliament. This house also through an in the basement joining under road tunnel with the Parliament building was connected. The basement houses storage rooms, the ground floor next to an "info-shop" where information materials concerning the Austrian Parlament can be obtained, the Parliament Post Office and the printery. In the six upper floors are offices and other work spaces for different departments of the Parliamentary Administration. The previously by these departments used rooms in the Parliament building were, after it was moved into the house Reichsratsstrasse in 1994, mostly the parliamentary clubs made available. Already in 1992 by the rental of rooms in a building in the Schenkenstraße for the parliamentary staff of the deputies office premises had been created.

Pallas Athene

Parliament Vienna

The 5.5 meter high monumental statue of Pallas Athena in front of the parliament building in Vienna gives not only the outside appearance of this building a striking sculptural accent, but has almost become a symbolic figure of the Austrian parliamentarism. The Danish architect Theophil Hansen, according to which draft in the years 1874-1884 the parliament building has been built, has designed this as a "work of art (Gesamtkunstwerk)"; thus, his planning also including the figural decoration of the building. The in front of the Parliament ramp to be built monumental fountain should according to Hansen's original planning be crowned of an allegoric representation of the Austria, that is, a symbolization of Austria. In the definitive, in 1878 by Hansen submitted figure program took its place Pallas Athena, the Greek goddess of wisdom. The monumental statue was realized only after Hansen's death, but according to his design by sculptor Carl Kundmann in 1902.

Meeting room of the former House of Representatives

The meeting room of the former House of Representatives is largely preserved faithfully and now serves the meetings of the Federal Assembly as well as ceremonies and commemorative meetings of the National Council and the Federal Council. Architecturally, the hall is modeled on a Greek theater. Before the end wall is the presidium with the lectern and the Government Bench, in the semicircle the seats of the deputies are arranged. The from Carrara marble carved statues on the front wall - between the ​​of Unterberger marble manufactured columns and pilasters - represent Roman statesmen, the by Friedrich Eisenmenger realised frieze painting depicts the emergence of political life, and the pediment group above it should symbolize the daily routine.

Portico

The large portico, in its proportions recreating the Parthenon of the Acropolis of Athens, forms the central chamber of the parliament building and should according to the original intention serve as a meeting place between members of the House of Representatives and of the Imperial Council. Today it functions as a venue, such as for the annual reception of the President of the National Council and the President of the Federal Council for the Diplomatic Corps. When choosing materials for the parliament building, Theophil Hansen strove to use marbles and stones from the crown lands of the monarchy, thus expressing their attachment to their Parliament. For example, consist the 24 monolithic, that is, produced from one-piece, columns, each more than 16 tons of weight, of the great hypostyle hall of Adnet marble, the floor panels of Istrian karst marble. When in the last months of the Second World War the Parliament building was severely affected by bomb hits, also the portico suffered severe damage, and the two columns in the north-west corner of the hall were destroyed, the edge ceiling construction with the richly gilded coffered ceiling and below the ceiling running frieze painting by Eduard Lebiedzki have been severely damaged. The two destroyed columns in 1950 were replaced by two new ones, broken from the same quarry as the originals, but not exhibiting the same pattern. The parts of the Lebiedzki frieze which have been restorable only in the 90s could be restored.

www.wien-vienna.at/index.php?ID=1102

The Canadian Experience Class (CEC) is an immigration category designed for foreigners who work in Canada but are desirous of becoming permanent residents.

"Click Here To Schedule a Free Assesment."

visa.opulentuz.com/?utm_source=facebook&utm_campaign=...

Crews with the Pittsburgh District's Repair Party work to dewater one of the oldest operating locks in the Army Corps of Engineers' national inland waterways system. Dewatering the main chamber at the 107-year-old Monongahela River Locks and Dam #3 at Elizabeth, Pennsylvania, requires extensive planning and preparation, even before the first drop of water is pumped from the chamber. The aging walls must be braced prior to emptying the chamber to compensate for the loss of hydrostatic pressure normally provided by water. Coffer dams must be installed outside the lock gates to provide workers a dry space in which to repair and replace components that are typically underwater. Skilled workers at the district's Pittsburgh Engineers Warehouse and Repair Station (PEWARS) must fabricate many of the broken, deteriorated and unique replacement components months prior to the maintenance work at Elizabeth. The district's fleet of cranes, barges and service vessels and its workforce of specialists and technicians converged on the site in mid-June to complete the six-week maintenance cycle. (U.S. Army Corps of Engineers photo)

Lot-9848-5: WWII: German Activities. From a German gunsmith. Heavy grenades and shells on the last test. They are examined once again for errors. Not the slightest fault escapes the eyes of the skilled workers. Translated from German. Courtesy of the Library of Congress. (2017/07/13).

Using pioneering new technologies in Superfoods and nutrition, CFTRI has developed amazing new products which are on show at CFTRI stall at Pragati Maidan:

· Chia and Quinoa based Chocolates and Laddoos;

· Omega-3 enriched ice-cream;

· Multigrain banana bar

· Fruit juice based carbonated drinks.

New Delhi, 24th November, 2016: CSIR-Central Food Technological Research Institute (CFTRI), the premier national institute for food technology is exhibiting a range of new agri-products now grown in India, called Superfoods that bring health and nutrition best practices to everyday eating and living to the common man. The exhibits by CFTRI at the Trade Fair at Pragati Maidan in New Delhi both impress and surprise with the range and scope of their utility and potency.

The Indian population is presently going through a nutrition transition and there is an increase in incidence of diabetes, impaired heart health and obesity while there is still rampant malnutrition in the nation.

Keeping in mind an effective solution needed to address these concerns, CSIR-CFTRI is working on bringing Superfoods to the Indian population. CFTRI works on various facets of food technology, food processing, advanced nutrition, Superfoods and allied sciences. Superfoods are foods which have superior nutrition profiles which upon regular consumption can help improve health and wellness of the consumer.

CFTRI has developed the agro-technology for growing Superfoods viz. Chia and Quinoa in Indian conditions. Chia is the richest source of omega-3 fats from a vegetarian source and Quinoa has excellent protein quality and low glycemic load carbohydrates. Comprehensively, Chia and Quinoa have potential to improve population health and both blend seamlessly into traditional food preparations.

CSIR-CFTRI also infuses the spirit of entrepreneurship in their students. One of the doctoral students after completing her academic program started her own technology provider start-up company, Oleome Biosolutions Pvt Ltd. In a global first, CSIR-CFTRI in collaboration with Oleome, has developed a 100% vegetarian, Omega-3-enriched Ice cream called “Nutriice” using Chia oil.

CSIR-CFTRI is also in the process of the final phase of testing of diacylglycerol (DAG) oil, a unique cooking oil that has “Anti-Obesity” functionalities. One can consume it as part of daily regular diet and while the oil is available as energy but does not get stored as fat in our bodies. The final phase of human clinical trial is presently under progress.

CFTRI has also designed and developed snacks with advanced nutrition designs to support the nutrition needs of growing children. These have been implemented in the aganwadi levels to complement the existing government mid-day meal and will be scaled up soon. The products, such as Nutri Chikki with spirulina, rice beverage mix, high protein rusk, energy food, nutri sprinkle, seasame paste and fortified mango bars have been well received by the children and the anganwadis alike. Multi-grain Banana bar is a new addition to in this product portfolio.

Another exciting area of multidisciplinary research being done at CSIR-CFTRI is on nanotechnology, food technology and nutrition. Nanomaterials are known for their characteristic properties and CSIR-CFTRI is working on the use of nanoparticles for various applications. One of our interesting developments is the design and development of food packaging material with nanoparticles with antimicrobial and antioxidant properties to improve shelf-life of processed foods.

CSIR-CFTRI is also working on “Smart Foods” to answer specific needs of the consumer. These promising and specifically designed innovations are being developed for better sleep, better skin health, improved digestion, better cognitive performance and better stress management. The high science is brought into a simple food product, like a cereal bar which helps one to be more attentive over the day, or a unique dosa mix that helps in working out better at the gym with lower perceived exhaustion and even a special soup to help sleep better at night!

Speaking on the sidelines of the CSIR-CFTRI exhibition at Pragati Maidn, Prof. Ram Rajasekharan, Director, CFTRI said “Our mandate is to find innovative solutions to India agricultural and nutritional challenges. Our aim is to develop products to make Indian agriculture productive, efficient and at a consumer level gradually replace drugs with foods that will promote better health and wellness. We strive to deliver our best in improving food security and nutrition security, also developing a stronger, smarter and healthier India”.

About CSIR-CFTRI:

CSIR − Central Food Technological Research Institute (CFTRI), Mysore (A constituent laboratory of Council of Scientific and Industrial Research, New Delhi) came into existence during 1950 with the great vision of its founders, and a network of inspiring as well as dedicated scientists who had a fascination to pursue in-depth research and development in the areas of food science and technology.

CSIR-CFTRI is today a large and diversified laboratory headed by Prof. Ram Rajasekharan, Director, CSIR-CFTRI. Presently the institute has a great team of scientists, technologists, engineers, technicians, skilled workers, and support staff. There are seventeen research and development departments, including laboratories focusing on lipid science, molecular nutrition, food engineering, food biotechnology, microbiology, biochemistry, food safety etc.

The institute has designed over 300 products, processes, and equipment types. It holds several patents and has a large number of high impact peer reviewed journal articles to its credit. India is the world's second largest food grain, fruit and vegetable producer, and the institute is engaged in research and development in the production and handling of grains, pulses, oilseeds, spices, fruits, vegetables, meat, fish, and poultry.

The institute develops technologies to increase efficiency and reduce postharvest losses, add convenience, increase export, find new sources of food products, integrate human resources in food industries and develops solutions to improve the health and wellness of the population.

CFTRI has a vast portfolio of over 300 products, processes and equipment designs, and close to 4000 licensees have availed themselves of these technologies for commercial exploitation. The achievements have been of considerable industrial value, social importance and national relevance, and coupled with the institute's wide-ranging facilities and services, have created an extensive impact on the Indian food industry and Indian society at large.

Portrait of a steelworker. Ezz Steel production site is located in Alexandria and employs more than 2000 skilled workers. It is the Middle East's leading producer of high quality long and flat steel for use in a wide range of end applications.

Country : Egypt

Date : 2008-04

Copyright : Marcel Crozet / ILO

Inside Waterford Crystal Building in Waterford, Ireland.

The new House of Waterford Crystal

The new, high-tech House of Waterford Crystal has opened its doors in Waterford City, Ireland, allowing visitors to explore the history and craftsmanship of the world’s premier crystal manufacturer. The center, which comprises an actual crystal factory tour, visitor center and opulent retail store, houses the largest collection of Waterford Crystal in the world.

Visitors can interact with the skilled workers as they watch the crystal mix being transformed into glass in a 1200ºC (2192ºF) furnace before being blown and decorated with deep engravings. They can watch the glass being formed into the products they see on sale in luxury stores around the globe and learn about the production techniques through audiovisual displays and chatting to the craftsmen. Many of the most prestigious pieces of Waterford Crystal, which have been presented to celebrities and politicians, are also on display.

This project aims for safer and better managed cross border labour migration. ILO is providing coordination services for the Republic of Korea Government’s Employment Permit System which recruits low and semi-skilled workers from 15 countries in Asia-Pacific. © ILO/A.DOW

Click here to watch a related video: www.youtube.com/edit?video_id=uo0Qv7Bye3k&video_refer...

Click here to read a related feature story: www.ilo.org/asia/info/public/WCMS_211952/lang--en/index.htm

This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivs 3.0 IGO License. To view a copy of this license, visit creativecommons.org/licenses/by-nc-nd/3.0/igo/deed.en_US.

Chesterfield - Arkwright Primary School, Old Arkwright Town, 1996. The School was opened in 1901 and known as Arkwright Town Public Elementary School. By 1897 the Staveley company had purchased land for 229 houses in 7 rows for a mining community to serve the companies collieries nearby and its railway partners constructions in the locality. Mining communities had already been or were being constructed at Poolsbrook, Markham (officials and skilled workers) and Bonds Main by the company. In the end only 5 rows were completed with a total of 160 houses. The rows were divided into 3 terraced blocks containing between 6 to 12 houses. Rows were each separated by open back yards containing earth middens and coal houses for each property with pairs of properties sharing a common ash pit. Service roads were constructed to separate the back yards with lighting provided by gas from the Chesterfield gas plant. Water was pumped into a tap in each kitchen by pumps sited on Deepsick Lane. A school was built in 1900 to educate some 422 children. (282 + 140 infants) the headmaster living in a house nearby . Shops were built and others were added later. The railway provided a station and along with this a public house the Station Hotel was built and leased to the Staveley and District Public House Trust Ltd. A Miners Welfare was built along with permission to build a Methodist Chapel. Allotments were created along with children's play areas to the side of the railway. In the 1930's the gas lighting was replaced by electric lighting supplied by the companies generators at Staveley Works and the old outside middens and ash pits were replaced with water closets and modern sewage pipes. A new lease of life was given to the village in 1938 when the Staveley Company sank the Arkwright Colliery drifts into the Top Hard seam the village was needed for the Arkwright miners. In 1947 Arkwright Town was vested into the National Coal Board and as new landlords the Board undertook the restoration of the village and demolished the outside buildings after providing indoor bathrooms and toilets. The rows were each named and the street house numbers were altered to accommodate the demolition of 12 houses to improve access. Thirty years later in 1977 the NCB sold off the houses to the sitting tenants and the remainder to a private housing company. On November 9th 1988 a state of emergency was called in the village. British Gas engineers were called investigating reports of a gas leak at one of the houses in Hardwick Street and after investigating the problem, reported that it was not a leak on their mains but one of methane escaping from underground workings. On further investigation it was found that further properties in Penrose Street and on Chesterfield Road were affected. Consequently 110 people from 56 homes were evacuated for a period of two weeks. As a result of this methane drainage and controlled burning of the methane from underground was undertaken and a plant was constructed to do this at the site of the old colliery. A second alarm was raised in the Autumn of 1989 when an exposed part of the coalfield ignited and a fire resulted burning for about four weeks, the fear was that the resulting fire would ignite the methane underground and destroy the village. It was initially proposed to excavate 5,000 tons of coal from the affected seam but this scheme was dropped in favour of a more radical scheme. British Coal denied any responsibility but in a move to calm the fears of locals decided to embark on an opencast venture to remove 3.2 million tons of coal from the uppermost seams of the middle coal measures thus venting the methane into the atmosphere and a reclamation of the colliery spoil heaps to recover a further 800,000 tons of coal. This would be at least a 10 year project of opencast mining and included the construction of a new village a few hundred yards away and then the demolition of the old village.

I visited Osborne House on the Isle of Wight last week and saw the most amazing section of cloth I have ever seen in my life. I almost hyperventilated!

It was (poorly) displayed in the Children's Museum near the Swiss Cottage at the back of the property, and although the attendant refused to let me photograph it, I did manage to make a quick sketch.

The portion of cloth on display was, I think, linen, and was described as

"Mummy cloth : Bearing the makers name, from the Tomb of Kings, Thebes. c1600BC".

Wow. This small piece of cloth is over 3,000 years old!!

It was in wonderful condition, with no holes or marks on it, possibly due to the preservatives in the Mummy itself.

The makers mark was printed on to the cloth and was as fresh as the day it was made. I imagine that it was a very skilled worker who would be allowed to weave such a prestigious cloth.

I have machine embroidered a copy of the mark on to a piece of rusted calico, and placed this on a card.

Mixed media.

Pan America uses a unique anti-crease formula for its wrinkle free shirts and trousers. Each piece is cured and treated properly under high-pressure steam and extreme temperatures, at the same time ensuring that they do not sag or wilt. While automation is use extensively, many of our steps rely on the keen eyes and able hands of a team of skilled workers trained to deliver excellence.

Visit : www.panamerica.in

This project aims for safer and better managed cross border labour migration. ILO is providing coordination services for the Republic of Korea Government’s Employment Permit System which recruits low and semi-skilled workers from 15 countries in Asia-Pacific. © ILO/A.DOW

Click here to watch a related video: www.youtube.com/edit?video_id=uo0Qv7Bye3k&video_refer...

Click here to read a related feature story: www.ilo.org/asia/info/public/WCMS_211952/lang--en/index.htm

This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivs 3.0 IGO License. To view a copy of this license, visit creativecommons.org/licenses/by-nc-nd/3.0/igo/deed.en_US.

Pan America uses a unique anti-crease formula for its wrinkle free shirts and trousers. Each piece is cured and treated properly under high-pressure steam and extreme temperatures, at the same time ensuring that they do not sag or wilt. While automation is use extensively, many of our steps rely on the keen eyes and able hands of a team of skilled workers trained to deliver excellence.

Visit : www.panamerica.in

This project aims for safer and better managed cross border labour migration. ILO is providing coordination services for the Republic of Korea Government’s Employment Permit System which recruits low and semi-skilled workers from 15 countries in Asia-Pacific. ©ILO/A.DOW

Click here to watch a related video: www.youtube.com/edit?video_id=uo0Qv7Bye3k&video_refer...

Click here to read a related feature story: www.ilo.org/asia/info/public/WCMS_211952/lang--en/index.htm

This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivs 3.0 IGO License. To view a copy of this license, visit creativecommons.org/licenses/by-nc-nd/3.0/igo/deed.en_US.

Using pioneering new technologies in Superfoods and nutrition, CFTRI has developed amazing new products which are on show at CFTRI stall at Pragati Maidan:

· Chia and Quinoa based Chocolates and Laddoos;

· Omega-3 enriched ice-cream;

· Multigrain banana bar

· Fruit juice based carbonated drinks.

New Delhi, 24th November, 2016: CSIR-Central Food Technological Research Institute (CFTRI), the premier national institute for food technology is exhibiting a range of new agri-products now grown in India, called Superfoods that bring health and nutrition best practices to everyday eating and living to the common man. The exhibits by CFTRI at the Trade Fair at Pragati Maidan in New Delhi both impress and surprise with the range and scope of their utility and potency.

The Indian population is presently going through a nutrition transition and there is an increase in incidence of diabetes, impaired heart health and obesity while there is still rampant malnutrition in the nation.

Keeping in mind an effective solution needed to address these concerns, CSIR-CFTRI is working on bringing Superfoods to the Indian population. CFTRI works on various facets of food technology, food processing, advanced nutrition, Superfoods and allied sciences. Superfoods are foods which have superior nutrition profiles which upon regular consumption can help improve health and wellness of the consumer.

CFTRI has developed the agro-technology for growing Superfoods viz. Chia and Quinoa in Indian conditions. Chia is the richest source of omega-3 fats from a vegetarian source and Quinoa has excellent protein quality and low glycemic load carbohydrates. Comprehensively, Chia and Quinoa have potential to improve population health and both blend seamlessly into traditional food preparations.

CSIR-CFTRI also infuses the spirit of entrepreneurship in their students. One of the doctoral students after completing her academic program started her own technology provider start-up company, Oleome Biosolutions Pvt Ltd. In a global first, CSIR-CFTRI in collaboration with Oleome, has developed a 100% vegetarian, Omega-3-enriched Ice cream called “Nutriice” using Chia oil.

CSIR-CFTRI is also in the process of the final phase of testing of diacylglycerol (DAG) oil, a unique cooking oil that has “Anti-Obesity” functionalities. One can consume it as part of daily regular diet and while the oil is available as energy but does not get stored as fat in our bodies. The final phase of human clinical trial is presently under progress.

CFTRI has also designed and developed snacks with advanced nutrition designs to support the nutrition needs of growing children. These have been implemented in the aganwadi levels to complement the existing government mid-day meal and will be scaled up soon. The products, such as Nutri Chikki with spirulina, rice beverage mix, high protein rusk, energy food, nutri sprinkle, seasame paste and fortified mango bars have been well received by the children and the anganwadis alike. Multi-grain Banana bar is a new addition to in this product portfolio.

Another exciting area of multidisciplinary research being done at CSIR-CFTRI is on nanotechnology, food technology and nutrition. Nanomaterials are known for their characteristic properties and CSIR-CFTRI is working on the use of nanoparticles for various applications. One of our interesting developments is the design and development of food packaging material with nanoparticles with antimicrobial and antioxidant properties to improve shelf-life of processed foods.

CSIR-CFTRI is also working on “Smart Foods” to answer specific needs of the consumer. These promising and specifically designed innovations are being developed for better sleep, better skin health, improved digestion, better cognitive performance and better stress management. The high science is brought into a simple food product, like a cereal bar which helps one to be more attentive over the day, or a unique dosa mix that helps in working out better at the gym with lower perceived exhaustion and even a special soup to help sleep better at night!

Speaking on the sidelines of the CSIR-CFTRI exhibition at Pragati Maidn, Prof. Ram Rajasekharan, Director, CFTRI said “Our mandate is to find innovative solutions to India agricultural and nutritional challenges. Our aim is to develop products to make Indian agriculture productive, efficient and at a consumer level gradually replace drugs with foods that will promote better health and wellness. We strive to deliver our best in improving food security and nutrition security, also developing a stronger, smarter and healthier India”.

About CSIR-CFTRI:

CSIR − Central Food Technological Research Institute (CFTRI), Mysore (A constituent laboratory of Council of Scientific and Industrial Research, New Delhi) came into existence during 1950 with the great vision of its founders, and a network of inspiring as well as dedicated scientists who had a fascination to pursue in-depth research and development in the areas of food science and technology.

CSIR-CFTRI is today a large and diversified laboratory headed by Prof. Ram Rajasekharan, Director, CSIR-CFTRI. Presently the institute has a great team of scientists, technologists, engineers, technicians, skilled workers, and support staff. There are seventeen research and development departments, including laboratories focusing on lipid science, molecular nutrition, food engineering, food biotechnology, microbiology, biochemistry, food safety etc.

The institute has designed over 300 products, processes, and equipment types. It holds several patents and has a large number of high impact peer reviewed journal articles to its credit. India is the world's second largest food grain, fruit and vegetable producer, and the institute is engaged in research and development in the production and handling of grains, pulses, oilseeds, spices, fruits, vegetables, meat, fish, and poultry.

The institute develops technologies to increase efficiency and reduce postharvest losses, add convenience, increase export, find new sources of food products, integrate human resources in food industries and develops solutions to improve the health and wellness of the population.

CFTRI has a vast portfolio of over 300 products, processes and equipment designs, and close to 4000 licensees have availed themselves of these technologies for commercial exploitation. The achievements have been of considerable industrial value, social importance and national relevance, and coupled with the institute's wide-ranging facilities and services, have created an extensive impact on the Indian food industry and Indian society at large.

The British Columbia Provincial Nominee Program announced 241 new invitations for a nomination of provincial to graduates and skilled workers below its streams of Express Entry and Skills Immigration B.C in a draw that observed on 11 July 2018.

Organized by: Philippine Women's Center, No One is Illegal, and Justicia for Migrant Workers

December 18th has been designated as a Global Day of Action Against Racism, And for the Rights of Migrants, Refugees and Displaced People to commemorate and celebrate the struggles of migrants around the world (globalmigrantsaction.org/).

Join us in Vancouver, Coast Salish Territories for a community supper and participatory discussion across communities to continue to organize, to resist and to build a strong and vibrant migrant justice movement to demand dignity, justice and status for all.

Kenney’s model is one of Permanent Impermanence. We cannot allow divisive stereotypes of migrants ‘stealing our jobs and resources’ to let the Harper government off the hook for putting profit over the people and the planet. On International Migrants Day, stand with us for migrant dignity and human rights and justice for all.

-- Greater Vancouver Baptist Church

This project aims for safer and better managed cross border labour migration. ILO is providing coordination services for the Republic of Korea Government’s Employment Permit System which recruits low and semi-skilled workers from 15 countries in Asia-Pacific. ©ILO/A.DOW

Click here to watch a related video: www.youtube.com/edit?video_id=uo0Qv7Bye3k&video_refer...

Click here to read a related feature story: www.ilo.org/asia/info/public/WCMS_211952/lang--en/index.htm

This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivs 3.0 IGO License. To view a copy of this license, visit creativecommons.org/licenses/by-nc-nd/3.0/igo/deed.en_US.

(for further pictures and information please go to the end of page and by clicking on the link my modest promises will be fulfilled!)

Parliament building

The original intention was to build two separate buildings for the Imperial Council and the House of Representatives of the by the February Patent 1861 established Reichsrat (Imperial Council). After the Compromise with Hungary, however, this plan was dropped and in the year 1869 the architect Theophil von Hansen by the Ministry of the Interior entrusted with the elaboration of the monumental project for a large parliament building. The first cut of the spade followed in June 1874, the foundation stone bears the date "2nd September 1874". At the same time was worked on the erection of the imperial museums, the Town Hall and the University. Theophil Hansen took - as already mentioned - well thought out and in a very meaningful way the style of the Viennese parliament building from ancient Greece; stem important constitutional terms but also from the Greek antiquity - such as "politics", "democracy" and others. Symbolic meaning had also that from nearly all crown lands of the monarchy materials have been used for the construction of the parliament building. Thus, the structure should symbolize the confluence of all the forces "of the in the in the Reichsrat represented kingdoms and countries" in the Vienna parliament building. With the downfall of the Austro-Hungarian monarchy ended the era of the multinational Parliament in Vienna.

Since November 1918, the building is the seat of the parliamentary bodies of the Republic of Austria, first the National Assembly and later the National Council in the until its destruction in 1945 remained unchanged session hall of the former Imperial Council holding meetings. During the Second World War, the parliament building was severely affected, about half of the building fabric were destroyed. On 7th February 1945 the portico by bombing suffered serious damage. Two columns were totally destroyed, the edge ceiling construction with the richly gilded coffered ceiling and a magnificent frieze painting, which was 121 meters long and 2 meters high and the most ideal and economic roles of the Parliament representing allegorically, were seriously damaged. During reconstruction, the rebuilding did not occur in the originally from Hansen originating features: instead of Pavonazzo marble for the wall plate cover Salzburg marble was used. The frieze painting initially not could be recovered, only in the 90s it should be possible to restore single surviving parts. In addition to destructions in the Chancellery Wing at the Ring Road as well as in the portico especially the Imperial Council tract was severely affected by the effects of war. The meeting room of the Imperial Council was completely burned out, in particular the figural jewelry as well as the ruined marble statues of Lycurgus, Solon, Themistocles, Aristides, Sophocles, Socrates, Pericles and Demosthenes appearing hardly recoverable. In this circumstances, it was decided not to reconstruct the old Imperial Council hall, but a new hall with a businesslike but refined and convenient furnishing for the National Council of the Republic of Austria to build. During the reconstruction of the building in the years 1945 to 1956 efforts were also made the yet by Hansen envisaged technical independence further to develop and to perfect. Thus the parliament building now has an emergency generator, which ensures, any time, adequate electricity supply of the house in case of failure of the city network, and a variety of other technical facilities, which guarantee a high supply autonomy. Not only from basic considerations in the sense of seperation of powers but also from the possibility of an extraordinary emergency, is this a compelling need. National Council and the Federal Council as the elected representative bodies of the Austrian people must at all times - especially in case of disaster - the material conditions for their activity have guaranteed. This purpose serve the mentioned facilities and many others, sometimes very complicated ones and the persons entrusted with their maintenance. To the staff of the Parliamentary Administration therefore belong not only academics, stenographers, administrators, secretaries and officials of the room service as in each parliament, but also the with the maintenance of the infrastructure of the parliament building entrusted technicians and skilled workers.

Analogous to other parliaments was for years, even decades tried to acquire or to rent one or the other object near the Parliament building. Finally one was able in 1981 to start with a basic conversion or expansion of the house Reichsratsstrasse 9 under planning by the architect Prof. Dr. Sepp Stein, in this connection was given the order the parliament building through a tunnel with the house in the Reichsratsstrasse to connect. With this tunnel not only a connection for pedestrians should be established, but also a technical integration of the two houses. In the basement of the building in which in early 1985 could be moved in, confluences the road tunnel; furthermore it serves the accommodation of technical rooms as well as of the storage, preparation and staff rooms for a restauration, a main kitchen and a restaurant for about 130 people are housed on the ground floor. On the first floor are located dining rooms for about 110 people; workrooms for MPs are in the second, offices in the third to the sixth floor housed. Ten years after the house Reichsratsstrasse 9 another building could be purchased, the house Reichsratsstrasse 1, and, again under the planning leadership of architect Prof. Dr. Sepp Stein, adapted for the purposes of the Parliament. This house also through an in the basement joining under road tunnel with the Parliament building was connected. The basement houses storage rooms, the ground floor next to an "info-shop" where information materials concerning the Austrian Parlament can be obtained, the Parliament Post Office and the printery. In the six upper floors are offices and other work spaces for different departments of the Parliamentary Administration. The previously by these departments used rooms in the Parliament building were, after it was moved into the house Reichsratsstrasse in 1994, mostly the parliamentary clubs made available. Already in 1992 by the rental of rooms in a building in the Schenkenstraße for the parliamentary staff of the deputies office premises had been created.

Pallas Athene

Parliament Vienna

The 5.5 meter high monumental statue of Pallas Athena in front of the parliament building in Vienna gives not only the outside appearance of this building a striking sculptural accent, but has almost become a symbolic figure of the Austrian parliamentarism. The Danish architect Theophil Hansen, according to which draft in the years 1874-1884 the parliament building has been built, has designed this as a "work of art (Gesamtkunstwerk)"; thus, his planning also including the figural decoration of the building. The in front of the Parliament ramp to be built monumental fountain should according to Hansen's original planning be crowned of an allegoric representation of the Austria, that is, a symbolization of Austria. In the definitive, in 1878 by Hansen submitted figure program took its place Pallas Athena, the Greek goddess of wisdom. The monumental statue was realized only after Hansen's death, but according to his design by sculptor Carl Kundmann in 1902.

Meeting room of the former House of Representatives

The meeting room of the former House of Representatives is largely preserved faithfully and now serves the meetings of the Federal Assembly as well as ceremonies and commemorative meetings of the National Council and the Federal Council. Architecturally, the hall is modeled on a Greek theater. Before the end wall is the presidium with the lectern and the Government Bench, in the semicircle the seats of the deputies are arranged. The from Carrara marble carved statues on the front wall - between the ​​of Unterberger marble manufactured columns and pilasters - represent Roman statesmen, the by Friedrich Eisenmenger realised frieze painting depicts the emergence of political life, and the pediment group above it should symbolize the daily routine.

Portico

The large portico, in its proportions recreating the Parthenon of the Acropolis of Athens, forms the central chamber of the parliament building and should according to the original intention serve as a meeting place between members of the House of Representatives and of the Imperial Council. Today it functions as a venue, such as for the annual reception of the President of the National Council and the President of the Federal Council for the Diplomatic Corps. When choosing materials for the parliament building, Theophil Hansen strove to use marbles and stones from the crown lands of the monarchy, thus expressing their attachment to their Parliament. For example, consist the 24 monolithic, that is, produced from one-piece, columns, each more than 16 tons of weight, of the great hypostyle hall of Adnet marble, the floor panels of Istrian karst marble. When in the last months of the Second World War the Parliament building was severely affected by bomb hits, also the portico suffered severe damage, and the two columns in the north-west corner of the hall were destroyed, the edge ceiling construction with the richly gilded coffered ceiling and below the ceiling running frieze painting by Eduard Lebiedzki have been severely damaged. The two destroyed columns in 1950 were replaced by two new ones, broken from the same quarry as the originals, but not exhibiting the same pattern. The parts of the Lebiedzki frieze which have been restorable only in the 90s could be restored.

www.wien-vienna.at/index.php?ID=1102

Using pioneering new technologies in Superfoods and nutrition, CFTRI has developed amazing new products which are on show at CFTRI stall at Pragati Maidan:

· Chia and Quinoa based Chocolates and Laddoos;

· Omega-3 enriched ice-cream;

· Multigrain banana bar

· Fruit juice based carbonated drinks.

New Delhi, 24th November, 2016: CSIR-Central Food Technological Research Institute (CFTRI), the premier national institute for food technology is exhibiting a range of new agri-products now grown in India, called Superfoods that bring health and nutrition best practices to everyday eating and living to the common man. The exhibits by CFTRI at the Trade Fair at Pragati Maidan in New Delhi both impress and surprise with the range and scope of their utility and potency.

The Indian population is presently going through a nutrition transition and there is an increase in incidence of diabetes, impaired heart health and obesity while there is still rampant malnutrition in the nation.

Keeping in mind an effective solution needed to address these concerns, CSIR-CFTRI is working on bringing Superfoods to the Indian population. CFTRI works on various facets of food technology, food processing, advanced nutrition, Superfoods and allied sciences. Superfoods are foods which have superior nutrition profiles which upon regular consumption can help improve health and wellness of the consumer.

CFTRI has developed the agro-technology for growing Superfoods viz. Chia and Quinoa in Indian conditions. Chia is the richest source of omega-3 fats from a vegetarian source and Quinoa has excellent protein quality and low glycemic load carbohydrates. Comprehensively, Chia and Quinoa have potential to improve population health and both blend seamlessly into traditional food preparations.

CSIR-CFTRI also infuses the spirit of entrepreneurship in their students. One of the doctoral students after completing her academic program started her own technology provider start-up company, Oleome Biosolutions Pvt Ltd. In a global first, CSIR-CFTRI in collaboration with Oleome, has developed a 100% vegetarian, Omega-3-enriched Ice cream called “Nutriice” using Chia oil.

CSIR-CFTRI is also in the process of the final phase of testing of diacylglycerol (DAG) oil, a unique cooking oil that has “Anti-Obesity” functionalities. One can consume it as part of daily regular diet and while the oil is available as energy but does not get stored as fat in our bodies. The final phase of human clinical trial is presently under progress.

CFTRI has also designed and developed snacks with advanced nutrition designs to support the nutrition needs of growing children. These have been implemented in the aganwadi levels to complement the existing government mid-day meal and will be scaled up soon. The products, such as Nutri Chikki with spirulina, rice beverage mix, high protein rusk, energy food, nutri sprinkle, seasame paste and fortified mango bars have been well received by the children and the anganwadis alike. Multi-grain Banana bar is a new addition to in this product portfolio.

Another exciting area of multidisciplinary research being done at CSIR-CFTRI is on nanotechnology, food technology and nutrition. Nanomaterials are known for their characteristic properties and CSIR-CFTRI is working on the use of nanoparticles for various applications. One of our interesting developments is the design and development of food packaging material with nanoparticles with antimicrobial and antioxidant properties to improve shelf-life of processed foods.

CSIR-CFTRI is also working on “Smart Foods” to answer specific needs of the consumer. These promising and specifically designed innovations are being developed for better sleep, better skin health, improved digestion, better cognitive performance and better stress management. The high science is brought into a simple food product, like a cereal bar which helps one to be more attentive over the day, or a unique dosa mix that helps in working out better at the gym with lower perceived exhaustion and even a special soup to help sleep better at night!

Speaking on the sidelines of the CSIR-CFTRI exhibition at Pragati Maidn, Prof. Ram Rajasekharan, Director, CFTRI said “Our mandate is to find innovative solutions to India agricultural and nutritional challenges. Our aim is to develop products to make Indian agriculture productive, efficient and at a consumer level gradually replace drugs with foods that will promote better health and wellness. We strive to deliver our best in improving food security and nutrition security, also developing a stronger, smarter and healthier India”.

About CSIR-CFTRI:

CSIR − Central Food Technological Research Institute (CFTRI), Mysore (A constituent laboratory of Council of Scientific and Industrial Research, New Delhi) came into existence during 1950 with the great vision of its founders, and a network of inspiring as well as dedicated scientists who had a fascination to pursue in-depth research and development in the areas of food science and technology.

CSIR-CFTRI is today a large and diversified laboratory headed by Prof. Ram Rajasekharan, Director, CSIR-CFTRI. Presently the institute has a great team of scientists, technologists, engineers, technicians, skilled workers, and support staff. There are seventeen research and development departments, including laboratories focusing on lipid science, molecular nutrition, food engineering, food biotechnology, microbiology, biochemistry, food safety etc.

The institute has designed over 300 products, processes, and equipment types. It holds several patents and has a large number of high impact peer reviewed journal articles to its credit. India is the world's second largest food grain, fruit and vegetable producer, and the institute is engaged in research and development in the production and handling of grains, pulses, oilseeds, spices, fruits, vegetables, meat, fish, and poultry.

The institute develops technologies to increase efficiency and reduce postharvest losses, add convenience, increase export, find new sources of food products, integrate human resources in food industries and develops solutions to improve the health and wellness of the population.

CFTRI has a vast portfolio of over 300 products, processes and equipment designs, and close to 4000 licensees have availed themselves of these technologies for commercial exploitation. The achievements have been of considerable industrial value, social importance and national relevance, and coupled with the institute's wide-ranging facilities and services, have created an extensive impact on the Indian food industry and Indian society at large.

Griffith Observatory, 2800 East Observatory Road, Los Angeles.

Greeting visitors upon their arrival at Griffith Observatory, the fully restored Astronomers Monument is a large outdoor concrete sculpture on the front lawn that pays homage to six of the greatest astronomers of all time:

- Hipparchus (about 150 B.C.)

- Nicholas Copernicus (1473-1543)

- Galileo Galilei (1564-1642)

- Johannes Kepler (1571-1630)

- Isaac Newton (1642-1727)

- William Herschel (1738-1822)

The monument is an enduring product of the great economic depression of the 1930s, when New Deal initiatives created federally funded work programs to employ skilled workers in many fields at a time when they would otherwise remain idle and without income. One of the first of these programs, the Public Works of Art Project (PWAP), began in December 1933. Soon thereafter, in cooperation with the Los Angeles Park Commission, PWAP commissioned a sculpture project on the grounds of the new Observatory (which was under construction). Using a design by local artist Archibald Garner and materials donated by the Women's' Auxiliary of the Los Angeles Chamber of Commerce, Garner and five other artists sculpted and cast the concrete monument and figures. Each artist was responsible for sculpting one astronomer; one of the artists, George Stanley, was also the creator of the famous "Oscar" statuette.

On November 25, 1934 (about six months prior to the opening of the Observatory), a celebration took place to mark completion of the Astronomers Monument, which had proven to be the most ambitious creation of the PWAP. The only "signature" on the Astronomers Monument is "PWAP 1934" referring to the federal agency which funded the project and the year it was completed.

Like Los Angeles, the Griffith Observatory, a 1935 Art Deco masterpiece conceived by Russell Porter and designed by the firm Austin and Ashley, exists in several domains, illusory and real. Whether glimpsed in the movies—1955’s "Rebel Without a Cause" or 1984’s "The Terminator"—or as a twilight destination in the Hollywood Hills, the Griffith’s iconic three-domed structure, what longtime observatory director Edwin Krupp calls the “hood ornament of Los Angeles,” also provides that rare Los Angeles accident: true public space.

Sitting on the south-facing slope of Mount Hollywood in L.A.'s Griffith Park, it commands a view of the Los Angeles Basin, including downtown Los Angeles to the southeast, Hollywood to the south, and the Pacific Ocean to the southwest.

As a Works Progress Administration (WPA) project, construction began on June 20, 1933, using a design developed by architect John C. Austin based on preliminary sketches by Russell W. Porter. The observatory and accompanying exhibits were opened to the public on May 14, 1935. In its first five days of operation the observatory logged more than 13,000 visitors.

Included in the original design was a planetarium under the large central dome. The first shows covered topics including the Moon, worlds of the solar system, and eclipses. Since the observatory opened in 1935, admission has been free, in accordance with Griffith's will.

A major earthquake in Long Beach in March 1933 -- just as construction plans were being finalized -- led the architects to abandon the planned terra cotta exterior in favor of strengthening and thickening the building's concrete walls. Lower-than-usual prices caused by the Great Depression enabled the selection of the finest materials of the day for the interior walls, floors, and finishes, making the building both beautiful and durable. And a depression-era Federal public works program employed six sculptors to create a public sculpture at Griffith Observatory. The resulting Astronomers Monument, dedicated in November 1934, was hailed as one of the most important pieces of art to be completed by the program.

Its architecture combines Art Deco, Greek Revival and Beaux-Arts elements to bridge the real of the world we observe around us and the illusionary of the dimly glimpsed edges of the universe.

A team of three skilled workers, one forklift and six steel plates were required to move this 4,000 mill into Ideum's Exhibit Fabrication Studio.

Using pioneering new technologies in Superfoods and nutrition, CFTRI has developed amazing new products which are on show at CFTRI stall at Pragati Maidan:

· Chia and Quinoa based Chocolates and Laddoos;

· Omega-3 enriched ice-cream;

· Multigrain banana bar

· Fruit juice based carbonated drinks.

New Delhi, 24th November, 2016: CSIR-Central Food Technological Research Institute (CFTRI), the premier national institute for food technology is exhibiting a range of new agri-products now grown in India, called Superfoods that bring health and nutrition best practices to everyday eating and living to the common man. The exhibits by CFTRI at the Trade Fair at Pragati Maidan in New Delhi both impress and surprise with the range and scope of their utility and potency.

The Indian population is presently going through a nutrition transition and there is an increase in incidence of diabetes, impaired heart health and obesity while there is still rampant malnutrition in the nation.

Keeping in mind an effective solution needed to address these concerns, CSIR-CFTRI is working on bringing Superfoods to the Indian population. CFTRI works on various facets of food technology, food processing, advanced nutrition, Superfoods and allied sciences. Superfoods are foods which have superior nutrition profiles which upon regular consumption can help improve health and wellness of the consumer.

CFTRI has developed the agro-technology for growing Superfoods viz. Chia and Quinoa in Indian conditions. Chia is the richest source of omega-3 fats from a vegetarian source and Quinoa has excellent protein quality and low glycemic load carbohydrates. Comprehensively, Chia and Quinoa have potential to improve population health and both blend seamlessly into traditional food preparations.

CSIR-CFTRI also infuses the spirit of entrepreneurship in their students. One of the doctoral students after completing her academic program started her own technology provider start-up company, Oleome Biosolutions Pvt Ltd. In a global first, CSIR-CFTRI in collaboration with Oleome, has developed a 100% vegetarian, Omega-3-enriched Ice cream called “Nutriice” using Chia oil.

CSIR-CFTRI is also in the process of the final phase of testing of diacylglycerol (DAG) oil, a unique cooking oil that has “Anti-Obesity” functionalities. One can consume it as part of daily regular diet and while the oil is available as energy but does not get stored as fat in our bodies. The final phase of human clinical trial is presently under progress.

CFTRI has also designed and developed snacks with advanced nutrition designs to support the nutrition needs of growing children. These have been implemented in the aganwadi levels to complement the existing government mid-day meal and will be scaled up soon. The products, such as Nutri Chikki with spirulina, rice beverage mix, high protein rusk, energy food, nutri sprinkle, seasame paste and fortified mango bars have been well received by the children and the anganwadis alike. Multi-grain Banana bar is a new addition to in this product portfolio.

Another exciting area of multidisciplinary research being done at CSIR-CFTRI is on nanotechnology, food technology and nutrition. Nanomaterials are known for their characteristic properties and CSIR-CFTRI is working on the use of nanoparticles for various applications. One of our interesting developments is the design and development of food packaging material with nanoparticles with antimicrobial and antioxidant properties to improve shelf-life of processed foods.

CSIR-CFTRI is also working on “Smart Foods” to answer specific needs of the consumer. These promising and specifically designed innovations are being developed for better sleep, better skin health, improved digestion, better cognitive performance and better stress management. The high science is brought into a simple food product, like a cereal bar which helps one to be more attentive over the day, or a unique dosa mix that helps in working out better at the gym with lower perceived exhaustion and even a special soup to help sleep better at night!

Speaking on the sidelines of the CSIR-CFTRI exhibition at Pragati Maidn, Prof. Ram Rajasekharan, Director, CFTRI said “Our mandate is to find innovative solutions to India agricultural and nutritional challenges. Our aim is to develop products to make Indian agriculture productive, efficient and at a consumer level gradually replace drugs with foods that will promote better health and wellness. We strive to deliver our best in improving food security and nutrition security, also developing a stronger, smarter and healthier India”.

About CSIR-CFTRI:

CSIR − Central Food Technological Research Institute (CFTRI), Mysore (A constituent laboratory of Council of Scientific and Industrial Research, New Delhi) came into existence during 1950 with the great vision of its founders, and a network of inspiring as well as dedicated scientists who had a fascination to pursue in-depth research and development in the areas of food science and technology.

CSIR-CFTRI is today a large and diversified laboratory headed by Prof. Ram Rajasekharan, Director, CSIR-CFTRI. Presently the institute has a great team of scientists, technologists, engineers, technicians, skilled workers, and support staff. There are seventeen research and development departments, including laboratories focusing on lipid science, molecular nutrition, food engineering, food biotechnology, microbiology, biochemistry, food safety etc.

The institute has designed over 300 products, processes, and equipment types. It holds several patents and has a large number of high impact peer reviewed journal articles to its credit. India is the world's second largest food grain, fruit and vegetable producer, and the institute is engaged in research and development in the production and handling of grains, pulses, oilseeds, spices, fruits, vegetables, meat, fish, and poultry.

The institute develops technologies to increase efficiency and reduce postharvest losses, add convenience, increase export, find new sources of food products, integrate human resources in food industries and develops solutions to improve the health and wellness of the population.

CFTRI has a vast portfolio of over 300 products, processes and equipment designs, and close to 4000 licensees have availed themselves of these technologies for commercial exploitation. The achievements have been of considerable industrial value, social importance and national relevance, and coupled with the institute's wide-ranging facilities and services, have created an extensive impact on the Indian food industry and Indian society at large.

This project aims for safer and better managed cross border labour migration. ILO is providing coordination services for the Republic of Korea Government’s Employment Permit System which recruits low and semi-skilled workers from 15 countries in Asia-Pacific. ©ILO/A.DOW

Click here to watch a related video: www.youtube.com/edit?video_id=uo0Qv7Bye3k&video_refer...

Click here to read a related feature story: www.ilo.org/asia/info/public/WCMS_211952/lang--en/index.htm

This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivs 3.0 IGO License. To view a copy of this license, visit creativecommons.org/licenses/by-nc-nd/3.0/igo/deed.en_US.

Pictured above: Kevin Gay, CEO, Operation New Hope, speaks at the launch of the Jacksonville Port Academy.

Speakers seated from left: Darnell Smith, Florida Blue; Eric Green, JAXPORT; Kerri Stewart, City of Jacksonville

JACKSONVILLE, Fla. (March 7, 2017) – Operation New Hope and JAXPORT today launched the Jacksonville Port Academy, a program designed to connect JAXPORT employers with potential employees, offering non-violent former offenders the opportunity to re-enter the local workforce in the rapidly expanding areas of transportation and logistics.

The academy’s first class of up to 15 students will start later this month with industry-specific curriculum created by the University of North Florida and Florida State College at Jacksonville. More than 10 companies doing business at the port have already pledged participation in the hiring program.

Jacksonville Port Academy was created after Operation New Hope’s founder and CEO Kevin Gay toured JAXPORT’s terminals in 2015. “Seeing the growth of the port, we began exploring avenues to discuss workforce needs and began creating initiatives to provide port employers with skilled workers,” said Gay.

“JAXPORT’s success hinges greatly upon a viable and sustainable workforce,” said Eric Green, JAXPORT Senior Director, Government and External Affairs. “The training and on-going support provided by the Jacksonville Port Academy will create real economic stability for those who deserve a second chance.”

The Jacksonville Port Academy is a collaborative effort between JAXPORT and its tenants, local education partners and Operation New Hope.

Interested employers can contact Lori Frederick, Jacksonville Port Academy Coordinator, at 904-354-4673 or LFrederick@OperationNewHope.com.

Matt Poischbeg from SEA-LECT Plastics was invited to speak at the annual Benchmarking and Best Practices Conference hosted by the Manufacturers Association of Plastic Processors. This year's conference was held in Indianapolis on Wednesday October 11th thru Friday October 13th, 2017. Matt participated in morning Quick-Fire session and in 2-afternoon breakout panel discussions on the topic of workforce development and the importance of apprenticeships.

Matt is the VP and General Manager of SEA-LECT Plastics in Everett Washington. He has been an advocate and leading spokesperson for apprenticeship education and developing a skilled workforce for the manufacturing industry and beyond.

Four years ago, Poischbeg was in dire need of a mold maker. After several months of traditional methods of recruiting, which yielded zero applicants, he decided it was time to train his own. As a young 16 year old growing up in Germany, Matt learned the value of apprenticeship training. "Apprenticeships are considered to be the backbone of the middle class in many countries. But, here in the United States, their value is totally underestimated. And that is a shame!"

Matt eventually partnered with the Aerospace Joint Apprenticeship Committee (AJAC) to help fill the need for skilled and trained manufacturing workers. "Unlike traditional job-training options, apprenticeships offer an education opportunity that leads directly into a high-skill occupation and career path". He enrolled one of SEA-LECT Plastics promising and committed employees in a five-year Tool & Die Maker apprenticeship program offered by AJAC (Aerospace Joint Apprenticeship Committee). Working with AJAC has been extremely beneficial to SEA-LECT Plastics. Having been turned down by local community colleges, it was AJAC who saw the value in implementing additional training curriculum in the expanding advanced manufacturing sector. AJAC now offers a four-year Plastics Process Technician apprenticeship and SEA-LECT now has four workers enrolled in this program.

Workforce development and the implementation of apprenticeships is more important now than ever. Many manufacturers say their biggest challenge is finding skilled workers for their growing organizations and replacing retiring workers. "Our current workforce includes highly skilled workers who offer valuable knowledge and skills acquired through years of experience. We must help retiring employees to pass on that knowledge to the next generation before it is lost."

To learn more about SEA-LECT Plastics and their apprenticeship program visit www.sealectplastics.com/careers or email Matt mattp@sealectplastics.com. You can also watch Matt give a Ted Talk on the topic of workplace apprenticeships: www.youtube.com/watch?v=paAji...

FaceBook: www.facebook.com/sealectplast...

Twitter: twitter.com/sea_lect

G+: plus.google.com/b/10576904362...

YouTube: www.youtube.com/channel/UCOz9...

An agreement in principle to enhance workforce co-operation and mobility of skilled workers between the Province of British Columbia and the Province of Newfoundland and Labrador.

Learn more: news.gov.bc.ca/stories/agreement-boosts-workforce-co-oper...

Using pioneering new technologies in Superfoods and nutrition, CFTRI has developed amazing new products which are on show at CFTRI stall at Pragati Maidan:

· Chia and Quinoa based Chocolates and Laddoos;

· Omega-3 enriched ice-cream;

· Multigrain banana bar

· Fruit juice based carbonated drinks.

New Delhi, 24th November, 2016: CSIR-Central Food Technological Research Institute (CFTRI), the premier national institute for food technology is exhibiting a range of new agri-products now grown in India, called Superfoods that bring health and nutrition best practices to everyday eating and living to the common man. The exhibits by CFTRI at the Trade Fair at Pragati Maidan in New Delhi both impress and surprise with the range and scope of their utility and potency.

The Indian population is presently going through a nutrition transition and there is an increase in incidence of diabetes, impaired heart health and obesity while there is still rampant malnutrition in the nation.

Keeping in mind an effective solution needed to address these concerns, CSIR-CFTRI is working on bringing Superfoods to the Indian population. CFTRI works on various facets of food technology, food processing, advanced nutrition, Superfoods and allied sciences. Superfoods are foods which have superior nutrition profiles which upon regular consumption can help improve health and wellness of the consumer.

CFTRI has developed the agro-technology for growing Superfoods viz. Chia and Quinoa in Indian conditions. Chia is the richest source of omega-3 fats from a vegetarian source and Quinoa has excellent protein quality and low glycemic load carbohydrates. Comprehensively, Chia and Quinoa have potential to improve population health and both blend seamlessly into traditional food preparations.

CSIR-CFTRI also infuses the spirit of entrepreneurship in their students. One of the doctoral students after completing her academic program started her own technology provider start-up company, Oleome Biosolutions Pvt Ltd. In a global first, CSIR-CFTRI in collaboration with Oleome, has developed a 100% vegetarian, Omega-3-enriched Ice cream called “Nutriice” using Chia oil.

CSIR-CFTRI is also in the process of the final phase of testing of diacylglycerol (DAG) oil, a unique cooking oil that has “Anti-Obesity” functionalities. One can consume it as part of daily regular diet and while the oil is available as energy but does not get stored as fat in our bodies. The final phase of human clinical trial is presently under progress.

CFTRI has also designed and developed snacks with advanced nutrition designs to support the nutrition needs of growing children. These have been implemented in the aganwadi levels to complement the existing government mid-day meal and will be scaled up soon. The products, such as Nutri Chikki with spirulina, rice beverage mix, high protein rusk, energy food, nutri sprinkle, seasame paste and fortified mango bars have been well received by the children and the anganwadis alike. Multi-grain Banana bar is a new addition to in this product portfolio.

Another exciting area of multidisciplinary research being done at CSIR-CFTRI is on nanotechnology, food technology and nutrition. Nanomaterials are known for their characteristic properties and CSIR-CFTRI is working on the use of nanoparticles for various applications. One of our interesting developments is the design and development of food packaging material with nanoparticles with antimicrobial and antioxidant properties to improve shelf-life of processed foods.

CSIR-CFTRI is also working on “Smart Foods” to answer specific needs of the consumer. These promising and specifically designed innovations are being developed for better sleep, better skin health, improved digestion, better cognitive performance and better stress management. The high science is brought into a simple food product, like a cereal bar which helps one to be more attentive over the day, or a unique dosa mix that helps in working out better at the gym with lower perceived exhaustion and even a special soup to help sleep better at night!

Speaking on the sidelines of the CSIR-CFTRI exhibition at Pragati Maidn, Prof. Ram Rajasekharan, Director, CFTRI said “Our mandate is to find innovative solutions to India agricultural and nutritional challenges. Our aim is to develop products to make Indian agriculture productive, efficient and at a consumer level gradually replace drugs with foods that will promote better health and wellness. We strive to deliver our best in improving food security and nutrition security, also developing a stronger, smarter and healthier India”.

About CSIR-CFTRI:

CSIR − Central Food Technological Research Institute (CFTRI), Mysore (A constituent laboratory of Council of Scientific and Industrial Research, New Delhi) came into existence during 1950 with the great vision of its founders, and a network of inspiring as well as dedicated scientists who had a fascination to pursue in-depth research and development in the areas of food science and technology.

CSIR-CFTRI is today a large and diversified laboratory headed by Prof. Ram Rajasekharan, Director, CSIR-CFTRI. Presently the institute has a great team of scientists, technologists, engineers, technicians, skilled workers, and support staff. There are seventeen research and development departments, including laboratories focusing on lipid science, molecular nutrition, food engineering, food biotechnology, microbiology, biochemistry, food safety etc.

The institute has designed over 300 products, processes, and equipment types. It holds several patents and has a large number of high impact peer reviewed journal articles to its credit. India is the world's second largest food grain, fruit and vegetable producer, and the institute is engaged in research and development in the production and handling of grains, pulses, oilseeds, spices, fruits, vegetables, meat, fish, and poultry.

The institute develops technologies to increase efficiency and reduce postharvest losses, add convenience, increase export, find new sources of food products, integrate human resources in food industries and develops solutions to improve the health and wellness of the population.

CFTRI has a vast portfolio of over 300 products, processes and equipment designs, and close to 4000 licensees have availed themselves of these technologies for commercial exploitation. The achievements have been of considerable industrial value, social importance and national relevance, and coupled with the institute's wide-ranging facilities and services, have created an extensive impact on the Indian food industry and Indian society at large.

A rivet is a permanent mechanical fastener. Before being installed a rivet consists of a smooth cylindrical shaft with a head on one end. The end opposite the head is called the buck-tail. On installation the rivet is placed in a punched or pre-drilled hole, and the tail is upset, or bucked (i.e. deformed), so that it expands to about 1.5 times the original shaft diameter, holding the rivet in place. To distinguish between the two ends of the rivet, the original head is called the factory head and the deformed end is called the shop head or buck-tail.

Until relatively recently, structural steel connections were either welded or riveted. High-strength bolts have completely replaced structural steel rivets. Indeed, the latest steel construction specifications published by AISC (the 13th Edition) no longer covers their installation. The reason for the change is primarily due to the expense of skilled workers required to install high strength structural steel rivets. Whereas two relatively unskilled workers can install and tighten high strength bolts, it took a minimum of four highly skilled riveters to install rivets in one joint at a time.

At a central location near the areas being riveted, a furnace was set up. Rivets were placed in the furnace and heated to a glowing hot temperature, at which time the furnace operator would use tongs to individually remove and throw them to catchers stationed near the joints to be riveted. The catcher would place the glowing hot rivet into the hole to be riveted, and quickly turn around to await the next rivet. One worker would then hold a heavy rivet set against the round head of the rivet, while the hammerer would apply a pneumatic rivet hammer to the unformed head, causing it to mushroom tightly against the joint in its final domed shape. Upon cooling, the rivet would contract and exert further force tightening the joint. This process was repeated for each rivet.

(source: Wikipedia)

"The red brick building at the corner of

Third Avenue and First Street was one of

many factories that supplied the barrels used

for flour. Called coopers, the skilled workers

who made barrels pioneered a new role for labor

in Minneapolis. When their wages were cut in

1874 and a strike was broken, some of them

formed a co-op. The idea spread, and by 1886

two-thirds of the coopers at the falls belonged

to shops owned and managed by the workers.

They prospered until flour sacks replaced

barrels after 1900."

(for further pictures and information please go to the end of page and by clicking on the link my modest promises will be fulfilled!)

Parliament building

The original intention was to build two separate buildings for the Imperial Council and the House of Representatives of the by the February Patent 1861 established Reichsrat (Imperial Council). After the Compromise with Hungary, however, this plan was dropped and in the year 1869 the architect Theophil von Hansen by the Ministry of the Interior entrusted with the elaboration of the monumental project for a large parliament building. The first cut of the spade followed in June 1874, the foundation stone bears the date "2nd September 1874". At the same time was worked on the erection of the imperial museums, the Town Hall and the University. Theophil Hansen took - as already mentioned - well thought out and in a very meaningful way the style of the Viennese parliament building from ancient Greece; stem important constitutional terms but also from the Greek antiquity - such as "politics", "democracy" and others. Symbolic meaning had also that from nearly all crown lands of the monarchy materials have been used for the construction of the parliament building. Thus, the structure should symbolize the confluence of all the forces "of the in the in the Reichsrat represented kingdoms and countries" in the Vienna parliament building. With the downfall of the Austro-Hungarian monarchy ended the era of the multinational Parliament in Vienna.

Since November 1918, the building is the seat of the parliamentary bodies of the Republic of Austria, first the National Assembly and later the National Council in the until its destruction in 1945 remained unchanged session hall of the former Imperial Council holding meetings. During the Second World War, the parliament building was severely affected, about half of the building fabric were destroyed. On 7th February 1945 the portico by bombing suffered serious damage. Two columns were totally destroyed, the edge ceiling construction with the richly gilded coffered ceiling and a magnificent frieze painting, which was 121 meters long and 2 meters high and the most ideal and economic roles of the Parliament representing allegorically, were seriously damaged. During reconstruction, the rebuilding did not occur in the originally from Hansen originating features: instead of Pavonazzo marble for the wall plate cover Salzburg marble was used. The frieze painting initially not could be recovered, only in the 90s it should be possible to restore single surviving parts. In addition to destructions in the Chancellery Wing at the Ring Road as well as in the portico especially the Imperial Council tract was severely affected by the effects of war. The meeting room of the Imperial Council was completely burned out, in particular the figural jewelry as well as the ruined marble statues of Lycurgus, Solon, Themistocles, Aristides, Sophocles, Socrates, Pericles and Demosthenes appearing hardly recoverable. In this circumstances, it was decided not to reconstruct the old Imperial Council hall, but a new hall with a businesslike but refined and convenient furnishing for the National Council of the Republic of Austria to build. During the reconstruction of the building in the years 1945 to 1956 efforts were also made the yet by Hansen envisaged technical independence further to develop and to perfect. Thus the parliament building now has an emergency generator, which ensures, any time, adequate electricity supply of the house in case of failure of the city network, and a variety of other technical facilities, which guarantee a high supply autonomy. Not only from basic considerations in the sense of seperation of powers but also from the possibility of an extraordinary emergency, is this a compelling need. National Council and the Federal Council as the elected representative bodies of the Austrian people must at all times - especially in case of disaster - the material conditions for their activity have guaranteed. This purpose serve the mentioned facilities and many others, sometimes very complicated ones and the persons entrusted with their maintenance. To the staff of the Parliamentary Administration therefore belong not only academics, stenographers, administrators, secretaries and officials of the room service as in each parliament, but also the with the maintenance of the infrastructure of the parliament building entrusted technicians and skilled workers.

Analogous to other parliaments was for years, even decades tried to acquire or to rent one or the other object near the Parliament building. Finally one was able in 1981 to start with a basic conversion or expansion of the house Reichsratsstrasse 9 under planning by the architect Prof. Dr. Sepp Stein, in this connection was given the order the parliament building through a tunnel with the house in the Reichsratsstrasse to connect. With this tunnel not only a connection for pedestrians should be established, but also a technical integration of the two houses. In the basement of the building in which in early 1985 could be moved in, confluences the road tunnel; furthermore it serves the accommodation of technical rooms as well as of the storage, preparation and staff rooms for a restauration, a main kitchen and a restaurant for about 130 people are housed on the ground floor. On the first floor are located dining rooms for about 110 people; workrooms for MPs are in the second, offices in the third to the sixth floor housed. Ten years after the house Reichsratsstrasse 9 another building could be purchased, the house Reichsratsstrasse 1, and, again under the planning leadership of architect Prof. Dr. Sepp Stein, adapted for the purposes of the Parliament. This house also through an in the basement joining under road tunnel with the Parliament building was connected. The basement houses storage rooms, the ground floor next to an "info-shop" where information materials concerning the Austrian Parlament can be obtained, the Parliament Post Office and the printery. In the six upper floors are offices and other work spaces for different departments of the Parliamentary Administration. The previously by these departments used rooms in the Parliament building were, after it was moved into the house Reichsratsstrasse in 1994, mostly the parliamentary clubs made available. Already in 1992 by the rental of rooms in a building in the Schenkenstraße for the parliamentary staff of the deputies office premises had been created.

Pallas Athene

Parliament Vienna

The 5.5 meter high monumental statue of Pallas Athena in front of the parliament building in Vienna gives not only the outside appearance of this building a striking sculptural accent, but has almost become a symbolic figure of the Austrian parliamentarism. The Danish architect Theophil Hansen, according to which draft in the years 1874-1884 the parliament building has been built, has designed this as a "work of art (Gesamtkunstwerk)"; thus, his planning also including the figural decoration of the building. The in front of the Parliament ramp to be built monumental fountain should according to Hansen's original planning be crowned of an allegoric representation of the Austria, that is, a symbolization of Austria. In the definitive, in 1878 by Hansen submitted figure program took its place Pallas Athena, the Greek goddess of wisdom. The monumental statue was realized only after Hansen's death, but according to his design by sculptor Carl Kundmann in 1902.

Meeting room of the former House of Representatives

The meeting room of the former House of Representatives is largely preserved faithfully and now serves the meetings of the Federal Assembly as well as ceremonies and commemorative meetings of the National Council and the Federal Council. Architecturally, the hall is modeled on a Greek theater. Before the end wall is the presidium with the lectern and the Government Bench, in the semicircle the seats of the deputies are arranged. The from Carrara marble carved statues on the front wall - between the ​​of Unterberger marble manufactured columns and pilasters - represent Roman statesmen, the by Friedrich Eisenmenger realised frieze painting depicts the emergence of political life, and the pediment group above it should symbolize the daily routine.

Portico

The large portico, in its proportions recreating the Parthenon of the Acropolis of Athens, forms the central chamber of the parliament building and should according to the original intention serve as a meeting place between members of the House of Representatives and of the Imperial Council. Today it functions as a venue, such as for the annual reception of the President of the National Council and the President of the Federal Council for the Diplomatic Corps. When choosing materials for the parliament building, Theophil Hansen strove to use marbles and stones from the crown lands of the monarchy, thus expressing their attachment to their Parliament. For example, consist the 24 monolithic, that is, produced from one-piece, columns, each more than 16 tons of weight, of the great hypostyle hall of Adnet marble, the floor panels of Istrian karst marble. When in the last months of the Second World War the Parliament building was severely affected by bomb hits, also the portico suffered severe damage, and the two columns in the north-west corner of the hall were destroyed, the edge ceiling construction with the richly gilded coffered ceiling and below the ceiling running frieze painting by Eduard Lebiedzki have been severely damaged. The two destroyed columns in 1950 were replaced by two new ones, broken from the same quarry as the originals, but not exhibiting the same pattern. The parts of the Lebiedzki frieze which have been restorable only in the 90s could be restored.

www.wien-vienna.at/index.php?ID=1102

Detail of the statue of Lieven Bauwens in Gent

Lieven Bauwens (14 June 1769, Ghent – 17 March 1822, Paris) was a Belgian entrepreneur and industrial spy who was sent to Great Britain at a young age and brought a spinning mule and skilled workers to the European continent.

He started textile plants in Paris (1799) and Ghent (1800). In Ghent he was also mayor for one year. As a leading industrial, he was visited by Napoleon in 1810 and awarded the Legion d'Honneur.

He is remembered in Flanders for bringing the textile industry, and thereby the Industrial Revolution, there.

The spinning mule that was brought to Ghent can still be visited, in the Museum for Industrial Archeology and Textile

www.youtube.com/watch?v=rJtJXtROPEQ&t=28s

Is the US economy heading down, and taking the world with it? | The Bottom Line

www.msn.com/en-us/money/markets/the-economic-forecast-has...

The economic forecast has ‘darkened significantly’ in the last 3 months and a global recession can’t be ruled out, warns IMF’s chief

Business conditions in the last three months have “darkened significantly,” and the risk of a global economic recession is on the rise, according to the head of the International Monetary Fund.

“It’s going to be a tough ’22, but maybe even a tougher 2023,” IMF Managing Director Kristalina Georgieva told Reuters on Wednesday.

Georgieva cited the global spread of inflation, dramatic interest rate hikes by central banks, a slowdown in China’s economic growth and unprecedented sanctions against Russia among the factors affecting worldwide markets.

The IMF’s last outlook called for the global economy to expand by 3.6% this year, but Georgieva said the fund would be releasing a new estimate in the coming weeks that lowers the expected growth rate. The move would represent the IMF’s third downward revision of its estimate this year.

“We are in choppy waters,” Georgieva told Reuters, noting during the interview that an economic recession is something that cannot be ruled out.

www.reuters.com/markets/europe/nobodys-perfect-german-eco...

Analysis: 'Nobody's perfect': German economy, engine of Europe, splutters

▫️ Germany breaks 30-year winning streak as export champion

▫️ Europe's economic icon faces u-turn in fortunes

▫️ Divisions could hamper German action

FRANKFURT, July 8 (Reuters) - Long one of the globe's economic stars, Germany is on a brink of a reversal of fortune which some fear imperils the prosperity built by its post-war generation.

While on the surface, the German economic engine is purring, a recent reversal in exports and steep stock price falls betray deep-seated problems in the continent's most populous and industrious country, a central pillar of the European Union.

In May, Europe's biggest economy imported more than it exported for the first time in three decades, breaking a winning streak as "Exportweltmeister" or "global export champion" since the country's reunification.

Finance minister Christian Lindner compared it with a "profit warning" - a red alert companies issue if earnings are set to disappoint. Selling more than it buys has been a central tenet of Germany's ascent to the global economic elite.

Just weeks earlier, on the same day as Berlin edged towards rationing energy, shares in Deutsche Bank (DBKGn.DE) and Commerzbank(CBKG.DE) , the country's flagship lenders and bellwethers for its economy, tumbled around 12%.

German regulators put that collapse down to fears for the country's economy in the face of curbs in the supply of Russian gas that underpins industry, said one person with knowledge of the matter.

"This may really be the beginning of a weaker period for Germany," said Achim Truger, one of the government’s chief economic experts that advises the chancellery.

"If ever somebody viewed Germany as a role model, maybe it's time to have a realistic view about strengths and weakness. Nobody's perfect."

After the World War Two, Germany, bolstered by U.S. aid, built its economy on cars, machinery and chemicals, controlled through banks such as Deutsche Bank owning stakes in industrial firms - a system known as Deutschland AG, or Germany Inc.

The country's Bundesbank held its currency steady, cheap Russian gas powered industry and unions were tied into management boards to control wages. The result: an icon of industrialism grudgingly admired around the globe.

All this fuelled leaps in exports through the 1980s, 1990s and 2000s, by which time the Deutsche mark had been replaced by the euro at a rate which made German exports attractive.

Germany, thanks to labour market reforms, overcame a spell as the "sick man of Europe" at the turn of the millennium, but its success in selling more to its European neighbours than it bought, antagonised many countries that borrowed to buy German goods.

Then Berlin's insistence in the debt crisis that countries such as Greece accept tough conditions for emergency loans fuelled more resentment. But many Germans rejected such criticism, crediting their efficiency for the nation's success.

Seeking to rekindle the collaborative spirit that led to this success, German Chancellor Olaf Scholz this week met trade union and employer association leaders to discuss what he called a "historic" cost of living crisis.

Scholz, a Social Democrat, said he was reviving a model of cooperation established in 1967 when Germany fell into recession for the first time since its post-war boom.

But it will be harder now to placate trade unions, following a national drive to keep wages low through tax-free "mini-jobs" that capped hourly earnings for many low-skilled workers at about 10 euros - just enough to buy 20 McDonald's chicken McNuggets.

Reforms to curb unemployment payouts, introduced by Social Democrat chancellor Gerhard Schroeder, who forged close ties with Russian president Vladimir Putin and later worked for a Russian oil giant, further soured relations with unions.

Although Germany appears more stable than Britain, which is facing government upheaval, or France, where people clad in yellow vests protested against soaring costs of living, tensions are simmering.

Growing worker discontent can be seen in the rise of strikes. Those peaked recently in 2015, with roughly 28 strike days per 1,000 workers compared with almost none in 2000, and more recently, unions have warned of more strikes to push for wage hikes.

"I saw this risk ... when there was discussion of a gas embargo," said Monika Schnitzer, another economic adviser to the government. "I would be seriously worried about stability."

SYMBOLIC SHIFT

Economists now believe that Germany could be opening a bleak chapter.

Although it held up better than the euro area as a whole during the pandemic in 2020, its economy did not rebound as strongly as the bloc in 2021 and is expected to lag this year.

The European Commission forecasts Germany to grow 1.6% this year compared with 3.1% for France and 4% of Spain.

"Globalisation, just-in-time supply chains and cheap energy from Russia - those are things that are changing and they are changing for good," said Carsten Brzeski, an economist with Dutch bank ING.

Those advantages have helped make German industry, from giants to hundreds of medium-sized champions, so successful.

"This is a real turning point for Germany," he said.

Germany's critical engineering and machinery sector, which outfits factories throughout China and the world, is on edge.

Ralph Wiechers, executive board member at the industry's VDMA trade body described the trade balance swinging into the red as a "warning".

"The question now is to what extent customers worldwide will scale back projects," he said.

Fielmann (FIEG.DE), the German eyewear manufacturer that operates in 16 countries, is pessimistic. Its shares have tumbled a third this year.

"We are feeling the considerable increase in transport and energy costs and the pressure in the supply chains," said its chief executive Marc Fielmann.

Gunther Schnabl, an economist with Leipzig University, blames German penny pinching for the country's predicament.

For years, Germany has saved money on defence and infrastructure while helping exporters by keeping wages low and importing cheap gas from Russia, he said.

"But it wasn’t investing the money. Instead it was using it to hide an erosion of prosperity. This isn’t going to work for much longer. Divisions and dissatisfaction are growing."

Crews with the Pittsburgh District's Repair Party work to dewater one of the oldest operating locks in the Army Corps of Engineers' national inland waterways system. Dewatering the main chamber at the 107-year-old Monongahela River Locks and Dam #3 at Elizabeth, Pennsylvania, requires extensive planning and preparation, even before the first drop of water is pumped from the chamber. The aging walls must be braced prior to emptying the chamber to compensate for the loss of hydrostatic pressure normally provided by water. Coffer dams must be installed outside the lock gates to provide workers a dry space in which to repair and replace components that are typically underwater. Skilled workers at the district's Pittsburgh Engineers Warehouse and Repair Station (PEWARS) must fabricate many of the broken, deteriorated and unique replacement components months prior to the maintenance work at Elizabeth. The district's fleet of cranes, barges and service vessels and its workforce of specialists and technicians converged on the site in mid-June to complete the six-week maintenance cycle. (U.S. Army Corps of Engineers photo)

In an exclusive interview with Saudi Gazette, the new Sri Lankan Consul General A. Sabarullah Khan said he is focused on solving the problems of Sri Lankan expatriates in the Kingdom and on furthering bilateral ties between the two countries.

“In Saudi Arabia, our main mission is to strengthen our relationship with the Saudi government on all levels, from culture to trade, and promoting the welfare of the Sri Lankan community here,” Khan said. He estimated the number of Sri Lankans in the Kingdom at around half a million, admitting that there is no official database in this regard because “many Sri Lankans who have been working in Saudi Arabia for over 30 years came here before we started regulating foreign employment, while others have overstayed or have come through neighboring countries. So we do not have the details of all individuals.”

Khan said the majority of the Sri Lankan workforce comprise female domestic helpers and unskilled workers, such as, drivers, cleaners, etc, along with a “good number of professional workers as well”.

“The main problem confronting our unskilled workers is underpayment or nonpayment of salaries, and solving this is the top agenda of our mission,” he said.

“Now,” he continued, “we have a control record and rules in Sri Lanka to maintain the quality of our labor – drivers, housemaids, cleaners, etc. – and we do not permit illiterate people to go abroad.”

Khan said that less than two percent of the Sri Lankan workforce in the Kingdom report labor problems, “which though an acceptable percentage in any work sector, we are trying hard to solve these problems”.

“We are working closely with Saudi authorities in this regard. We are constantly telling them about this vacuum in the system in order to solve the problem of nonpayment and underpayment of salaries. Although it is a challenge to legally solve all the issues of our people, we have to follow the policies and the law of the land,” he said

“Moreover,” he said, “we want more people to people contact between the two countries. Boosting bilateral trade, which is currently small, and promoting Saudi tourism to Sri Lanka are some of our targets”.

“Saudi Arabia is a strong potential market for Sri Lanka. More trade delegations will visit Saudi Arabia and the consulate will focus on strategic plans to expand trade between Saudi Arabia and Sri Lanka in sectors, such as, garments, agricultural products, etc. In the manpower sector, we want to increase the number of our skilled workers in the Kingdom,” said Khan.

Starting off as a science teacher, Khan went on to join the Sri Lanka scientific service, and transferred to the foreign services in 1994. He worked as the assistant director of foreign affairs in the Sri Lankan foreign ministry.

Khan was then transferred to Amman from where he went back to Sri Lanka to serve as deputy chief of protocol, later joining the country’s Bangkok mission as a consular minister. That was followed by his transfer to New Delhi, and from New Delhi to Riyadh, where he worked as deputy minister in the Sri Lankan mission. He was then appointed to his current position as the consul general.

Khan said he is working towards improving his mission’s consular services in the Kingdom.

The consul general in his message to the Sri Lankan community urged his countrymen to “stay united and focus on development as Sri Lanka needs the help of its nationals”. – SG __

Saudi Gazette (19/10/2010)

GRAINGER TOOLS FOR TOMORROW® SCHOLARSHIPS AWARDED TO CCBC STUDENTS IN SUPPORT OF SKILLED TRADES

BALTIMORE COUNTY, Md. (December 12, 2014) – Ayomiposi Ajiloseda and Mark Lyttle, Construction Management degree students at the Community College of Baltimore County are 2014-2015 winners of $2,000 Grainger Tools for Tomorrow® scholarships. The recipients were recognized in November during a Construction Contract and Related Law class on the Catonsville campus.

“Thousands of tongues are not enough to express the unspeakable joy that filled my heart when I received the mail informing me that I was selected as a recipient for the Grainger Scholarship,” enthuses Ayomiposi Ajiloseda of Catonsville, Md. “This good news came, when I almost quit my dream of becoming a project manager.” “I will always be grateful to Community College of Baltimore County, not only for providing the current learning materials with experienced and inspiring instructors, but for making such opportunity like Grainger Scholarship available to student like me to achieve his career goals.”

For Mark Lyttle of Randallstown, Md., “It is an honor to win this Grainger scholarship, which will allow me to continue my education without having to worry about how to pay for the remaining class.” The construction management major plans on continuing on his career path as a project manager and eventually managing the project managers. “Construction is my passion and I would love to stay in my field that allowed me to provide for my family and myself. I presently work for the Department of Defense and plan to continue with them.” Lyttle had high praise for CCBC’s program. “They taught me how to work as a team, how to be a part of a team, how to apply the skills of the trade on a different level, and provided the education in construction management to be a project manager with confidence.”

“Grainger is continuing to invest in the future of industry and communities through the Grainger Tools for Tomorrow® Scholarship Program” said Iain MacLean, manager of Grainger’s branch in Essex presented the awards. “We are proud to partner with CCBC and believe business and community college partnerships are one solution to building a stronger workforce.”

Businesses rely on community colleges to prepare skilled workers and many businesses that rely on skilled workers report difficulty finding qualified individuals to fill open jobs. In fact, skilled trade workers are ranked first in the “Top 10 Hardest Jobs to Fill” by Manpower Group in its 2014 annual survey.

CCBC has been in the forefront of preparing skilled workers for business and industry. According to Greg Case, CCBC coordinator of Construction Management in the School of Applied and Information Technology, “CCBC has more than 35 years of experience in educating students for construction management. Our reputation is well known to Grainger and the Baltimore community. These Grainger scholarships help promising students with a financial need complete their career preparation.”

The Community College of Baltimore County was one of 15 colleges originally selected by Grainger to participate in the Grainger Tools for Tomorrow® scholarship program.

This year, Grainger Tools for Tomorrow ® scholarships were awarded to 140 students at community colleges in the U.S., with one-half of the scholarships targeted to U.S. Armed Forces veterans. In addition to the monetary award, each student receives a customized Westward® tool-kit from Grainger upon graduation to jump start his/her career.

# # #

About Grainger

W.W. Grainger, Inc., with 2012 sales of $9 billion, is North America's leading broad line supplier of maintenance, repair and operating products, with expanding global operations. For additional information, contact Joe Micucci at 847-535-0879 or joseph.micucci@grainger.com

About the Community College of Baltimore County (www.ccbcmd.edu)

CCBC offers hundreds of programs and thousands of courses helping people of all ages, backgrounds and interests earn degrees, transfer, launch or advance careers, and prepare for in-demand jobs.

Providing accessible, affordable and high-quality education since 1957, CCBC educates more than 70,000 students each year, including half of all Baltimore County residents attending college in Maryland as undergraduates. Committed to student success and the development of lifelong learners who strengthen our regional workforce and enrich our community, CCBC has also been selected to participate in Achieving the Dream, a national student success initiative. In 2011, the Chronicle of Education honored CCBC as one of only 26 community colleges across the nation named “Great Colleges to Work For.”

CCBC is accredited by the Middle States Commission on Higher Education, 3624 Market Street, 2nd Floor West, Philadelphia, PA 19104 (267-284-5000). The Middle States Commission on Higher Education is an institutional accrediting agency recognized by the U.S. Secretary of Education and the Council for Higher Education Accreditation.

CCBC. The incredible value of education.

Crews with the Pittsburgh District's Repair Party work to dewater one of the oldest operating locks in the Army Corps of Engineers' national inland waterways system. Dewatering the main chamber at the 107-year-old Monongahela River Locks and Dam #3 at Elizabeth, Pennsylvania, requires extensive planning and preparation, even before the first drop of water is pumped from the chamber. The aging walls must be braced prior to emptying the chamber to compensate for the loss of hydrostatic pressure normally provided by water. Coffer dams must be installed outside the lock gates to provide workers a dry space in which to repair and replace components that are typically underwater. Skilled workers at the district's Pittsburgh Engineers Warehouse and Repair Station (PEWARS) must fabricate many of the broken, deteriorated and unique replacement components months prior to the maintenance work at Elizabeth. The district's fleet of cranes, barges and service vessels and its workforce of specialists and technicians converged on the site in mid-June to complete the six-week maintenance cycle. (U.S. Army Corps of Engineers photo)

Using pioneering new technologies in Superfoods and nutrition, CFTRI has developed amazing new products which are on show at CFTRI stall at Pragati Maidan:

· Chia and Quinoa based Chocolates and Laddoos;

· Omega-3 enriched ice-cream;

· Multigrain banana bar

· Fruit juice based carbonated drinks.

New Delhi, 24th November, 2016: CSIR-Central Food Technological Research Institute (CFTRI), the premier national institute for food technology is exhibiting a range of new agri-products now grown in India, called Superfoods that bring health and nutrition best practices to everyday eating and living to the common man. The exhibits by CFTRI at the Trade Fair at Pragati Maidan in New Delhi both impress and surprise with the range and scope of their utility and potency.

The Indian population is presently going through a nutrition transition and there is an increase in incidence of diabetes, impaired heart health and obesity while there is still rampant malnutrition in the nation.

Keeping in mind an effective solution needed to address these concerns, CSIR-CFTRI is working on bringing Superfoods to the Indian population. CFTRI works on various facets of food technology, food processing, advanced nutrition, Superfoods and allied sciences. Superfoods are foods which have superior nutrition profiles which upon regular consumption can help improve health and wellness of the consumer.

CFTRI has developed the agro-technology for growing Superfoods viz. Chia and Quinoa in Indian conditions. Chia is the richest source of omega-3 fats from a vegetarian source and Quinoa has excellent protein quality and low glycemic load carbohydrates. Comprehensively, Chia and Quinoa have potential to improve population health and both blend seamlessly into traditional food preparations.

CSIR-CFTRI also infuses the spirit of entrepreneurship in their students. One of the doctoral students after completing her academic program started her own technology provider start-up company, Oleome Biosolutions Pvt Ltd. In a global first, CSIR-CFTRI in collaboration with Oleome, has developed a 100% vegetarian, Omega-3-enriched Ice cream called “Nutriice” using Chia oil.

CSIR-CFTRI is also in the process of the final phase of testing of diacylglycerol (DAG) oil, a unique cooking oil that has “Anti-Obesity” functionalities. One can consume it as part of daily regular diet and while the oil is available as energy but does not get stored as fat in our bodies. The final phase of human clinical trial is presently under progress.

CFTRI has also designed and developed snacks with advanced nutrition designs to support the nutrition needs of growing children. These have been implemented in the aganwadi levels to complement the existing government mid-day meal and will be scaled up soon. The products, such as Nutri Chikki with spirulina, rice beverage mix, high protein rusk, energy food, nutri sprinkle, seasame paste and fortified mango bars have been well received by the children and the anganwadis alike. Multi-grain Banana bar is a new addition to in this product portfolio.

Another exciting area of multidisciplinary research being done at CSIR-CFTRI is on nanotechnology, food technology and nutrition. Nanomaterials are known for their characteristic properties and CSIR-CFTRI is working on the use of nanoparticles for various applications. One of our interesting developments is the design and development of food packaging material with nanoparticles with antimicrobial and antioxidant properties to improve shelf-life of processed foods.

CSIR-CFTRI is also working on “Smart Foods” to answer specific needs of the consumer. These promising and specifically designed innovations are being developed for better sleep, better skin health, improved digestion, better cognitive performance and better stress management. The high science is brought into a simple food product, like a cereal bar which helps one to be more attentive over the day, or a unique dosa mix that helps in working out better at the gym with lower perceived exhaustion and even a special soup to help sleep better at night!

Speaking on the sidelines of the CSIR-CFTRI exhibition at Pragati Maidn, Prof. Ram Rajasekharan, Director, CFTRI said “Our mandate is to find innovative solutions to India agricultural and nutritional challenges. Our aim is to develop products to make Indian agriculture productive, efficient and at a consumer level gradually replace drugs with foods that will promote better health and wellness. We strive to deliver our best in improving food security and nutrition security, also developing a stronger, smarter and healthier India”.

About CSIR-CFTRI:

CSIR − Central Food Technological Research Institute (CFTRI), Mysore (A constituent laboratory of Council of Scientific and Industrial Research, New Delhi) came into existence during 1950 with the great vision of its founders, and a network of inspiring as well as dedicated scientists who had a fascination to pursue in-depth research and development in the areas of food science and technology.

CSIR-CFTRI is today a large and diversified laboratory headed by Prof. Ram Rajasekharan, Director, CSIR-CFTRI. Presently the institute has a great team of scientists, technologists, engineers, technicians, skilled workers, and support staff. There are seventeen research and development departments, including laboratories focusing on lipid science, molecular nutrition, food engineering, food biotechnology, microbiology, biochemistry, food safety etc.

The institute has designed over 300 products, processes, and equipment types. It holds several patents and has a large number of high impact peer reviewed journal articles to its credit. India is the world's second largest food grain, fruit and vegetable producer, and the institute is engaged in research and development in the production and handling of grains, pulses, oilseeds, spices, fruits, vegetables, meat, fish, and poultry.

The institute develops technologies to increase efficiency and reduce postharvest losses, add convenience, increase export, find new sources of food products, integrate human resources in food industries and develops solutions to improve the health and wellness of the population.

CFTRI has a vast portfolio of over 300 products, processes and equipment designs, and close to 4000 licensees have availed themselves of these technologies for commercial exploitation. The achievements have been of considerable industrial value, social importance and national relevance, and coupled with the institute's wide-ranging facilities and services, have created an extensive impact on the Indian food industry and Indian society at large.

Organized by: Philippine Women's Center, No One is Illegal, and Justicia for Migrant Workers

December 18th has been designated as a Global Day of Action Against Racism, And for the Rights of Migrants, Refugees and Displaced People to commemorate and celebrate the struggles of migrants around the world (globalmigrantsaction.org/).

Join us in Vancouver, Coast Salish Territories for a community supper and participatory discussion across communities to continue to organize, to resist and to build a strong and vibrant migrant justice movement to demand dignity, justice and status for all.

Kenney’s model is one of Permanent Impermanence. We cannot allow divisive stereotypes of migrants ‘stealing our jobs and resources’ to let the Harper government off the hook for putting profit over the people and the planet. On International Migrants Day, stand with us for migrant dignity and human rights and justice for all.

-- Greater Vancouver Baptist Church

This project aims for safer and better managed cross border labour migration. ILO is providing coordination services for the Republic of Korea Government’s Employment Permit System which recruits low and semi-skilled workers from 15 countries in Asia-Pacific. ©ILO/A.DOW

Click here to watch a related video: www.youtube.com/edit?video_id=uo0Qv7Bye3k&video_refer...

Click here to read a related feature story: www.ilo.org/asia/info/public/WCMS_211952/lang--en/index.htm

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